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The book portrays a new industry of computer technology (hardware, software) free from monopoly. As a product line start, the operating system will give investors insight into marketing details. Encompassing server and economic models within academic research will benefit target goals. Researching URL transmitters is a key goal. Establishing technology integration points with foreign electronics engineering firms will enable global flow of product. Technical relationships shall fruit VLISM namespaces. Establishing global VLISM committee. Database language. Visual rendering group. Compiler group. Meta Tool product group. Software Group. Seventy million dollars US currency is what I want for my time developing the vision - Book.
The portable platform is an important tool for computing users of modern day. Many portable platforms exists, some even as simple as the cell phone are very sophisticated in the details, however none of these platforms ever seem to meet the user's total needs. So each consumer gathers devices that are specific to their needs. But each device that a user accumulates adds another type of resource that they need to manage data for. MP3 music, cell phone address books, books, documents, videos, photographs and websites addresses are among the many data. From use of these various devices a user gains an electronic persona that when combined paints a user portrait. One that portrays their many habits, financial wellness, learned knowledge, personal likes and wants about the user's self in the real world. While the industry may never tie together completely the electronic world persona to the physical one, it would please users more if their persistence were portable, securely protected and easily managed - that means centralizing the source.
To centralize the data source for a user would obviously mean that their information would be stored on a remote computer safe in a closet. Many Internet storage sites exist today that allow users to store their files on a web server, however to use them properly, the user must download the entire file to operate, use or edit. This editing and operation must be performed on the web server itself to allow a better use of network resources.
Centralization of the user data source will ultimately allow each device they have to manage every type of data file the user has, if it is within the devices potential and need. To accomplish this, a common drawing language that each device can render must be created. HTML is such a language but it is most suited for textual renderings. As well the implementation of HTML as an ASCII markup language makes it a poor choice for network transmission as typically binary implementations reduce overhead on parsing and transmission requirements. A drawing language that, while in management form on the server may be textual, during transmission is pure compressed binary will provide a link to the next needed technological leap for the World Wide Internet network; a resource everyone holds dear.
To accomplish this task will take the cooperation of many research companies. It involves making each device in existence connectable to INET Web Server technology using the internet network. Connection can be made using Bluetooth, phone ADSL connection, LAN or WIFI. Dependent on the device usage and specifics will determine how the local storage system is utilized. That is, some devices such as compact digital cameras will just upload images while MP3 players/recorders both will download and upload audio.
Sometimes a completely wireless link may not be practical. For example, a device that utilizes strictly audio and or video could be easily adopted for an ADSL phone type connection. When the user plugs in the device at the local data point, by device identification, its connection is routed to the user's storage, commercial publication bank or public domain bank. Then user can quickly change and download additional play lists to the device and go. As well the opportunity must exist for the purchase or rental directly from the device. INET Devices are equipped with secure finance processing.
Transactions can be managed securely for the user because banking transaction communication is made using the user's centralized storage and never communicated to the local wireless device. Only a transaction confirmation is sent from the bank to the device. The onboard electronic wallet within the INET Device can also transfer electronic money. This offloads the security directly to the financial key hosting provider (electronic banker) and their current encryption/transport methods for transaction made from a bank.
The bank transaction itself will be authenticated real time from the client device. Electronic Tender is a target for counterfeit operations and will be combated using network scanning, a system much better in effective time to discovery than current methods. The authentication request can be registered to a cell phone or the new INET transaction authentication clothing button. Using an advanced encryption algorithm to send the authentication will be the method. The granularity and tinsel strength of the algorithm is defined to be very secure within the computational stochastic domain by using very large keys stored within the device. You spend online and it must be from a registered device. If the device is not registered on the user's account, the decryption algorithm will not function. When the banking institution gets the "yes" transmission, their methods of transaction processing fall within the realm of your service provider and the designated financial institution.
The important thing about the computing device being anonymous to your banking information will be a task of registering it at your banking institution directly. To the consumer, it will be an experience liken to getting a new credit card number at the counter, only this number is extremely large. It will be transferred to the device while being plugged in at the banking institution. The user will run a specialized program and be on the phone with the hosting provider to release the identity. The number cannot be gained without using forcible methods on the user's device itself, physical. Theft of the device can be compared to theft of a credit card and will be incorporated within the system using the consumer's durable response, a phone number is called to report a stolen item.
By law some hosting contract provider will not be responsible for stolen commerce devices. These institutions will rely on banking security to stop theft of money. Some hosting contract providers with the appropriate security accountability will work with any banking security to stop the theft of money. The Web OS will have the ability to suspend device IDs by the device's description using system administration privileges. The service a user receives will be dependant upon their terms of service contract. The terms of service contract will be supported information-ally using identifiable iconic logos. A common user must be able to quickly identify the types of services and technology options available using the pictorial. A portion of registration classification of a hosting contract provider will be authentication of these certifications. The Web OS also allows the geographic location of a device to be made aware. Finding it can be easier but includes the risk of thugs. Remember, its the device that is registered as a transaction capable member, not your operating system. The security system is in effect; it works and is trustworthy due to weapons. However, the encryption method will still be far superior in authentication. More secure for ecommerce spending than transmitting a credit card number, name, address, check number, ATM bank card number and a personal identification number.
The user's portable platform must be built to be as compact and energy efficient as possible. This can be accomplished by simplifying the client platform itself and offloading complex computing tasks to a host provider where electricity is abundant. By providing a robust, efficient rendering base model that facilitates the drawing of windows type interfaces, input validation and 2d/3d vector graphics a user will be very happy with their experience.
Many methods of render and client interactivity will have to be available on the web server to allow this platform to operate within acceptable usability tolerances. Stream download times may vary depending on network traffic, a decision made at the server level. By using video compositing, text overlays, image compression, vector compression, numeric compression, textual rendering, audio compression, and CGI rendering compression the client and host computer will have a significant link that can provide an interactive experience that utilizes minimum network bandwidth and smoothes spike requests.
The soft generation of overlays by the web server that facilitate real time operation is essential for the user to gain the full use of the platform. However, this means that less coupling between objects is needed in the executable form of the application. For example, the drop down menus at the top of many applications are typically facilitated by a plethora of code on Microsoft Windows. The compiler will automatically extract the menu system for streaming. This will include the code of the menu event, the final visual result, and the text information the menu is comprised from. Transmission of the menu will be the visual elements first, that is how the menu draws itself when clicked, colors, images, etc using the common drawing language. One of the most difficult and important factors when making the compiler system is hiding this functionality from the developer so that connections to a client computer are transparent.
The connection between the client and the web server must be adaptable yet conforming. The laptop client must provide several logic and visual build up operations to be performed when a different style of interface composition is needed.
Using a mainframe for the hosting operation will reduce the cost of user management and allow cheaper laptops to exist. But this does not prohibit users from owning their own back end hardware. Perhaps a new kind of insulated environmental closet for keeping electronic hardware will become available in homes; the lullaby closet. Users will no longer wait for the clunky notebook PC hardware to do the tasks because they will have a huge elephant doing the job. And a viable upgrade path for the user will be adding new CPUs to their computing cluster by plug. The web server operating system must have the capability of adjusting itself automatically for new hardware.
Mainframe network computing will allow users to easily choose different operating systems, rent or purchase software from an online electronic library and have all their data stored in one place. The perfect GUI marriage of a small client platform and big power server.
With this new system any company can host an operating system. So for specialized platforms like a Korg audio synthesizer their loop creation tools may be specific enough to facilitate a complete interface for music production. Professional quality rendering of the note information can be performed using their networked synthesis banks while the output is routed back and mixed real-time into the playing audio buffer. Having the basic development tools available for creative operating systems with specialized hardware on the back end can exist. The INET Web OS base model will provide the tools for this to exist. For capability purposes, the base OS model will allow any INET compatible device to use the resulting software.
A standard hard drive should be used so that current technology can be implemented. The local hard drive of the computer will be used primarily to store the interface rendering information of the application screens and associated binary code. Each application screen will have an ID associated as well as a version timestamp (CRC) that is compared to the server's version. The drive probably does not need to be a large size. Alternatively, a persistent memory card could be used. A four or two gigabyte implementation may be sufficient. This will, in the end, only allow greater flexibility in power usage and hardware design. Typically the hard drive uses much of the computer battery resources as motors spin a disc at high speeds. A directory file naming schema needs to be maintained that compares the versions of the rendering interface to the server's version so that cached versions are quickly located and displayed.
KeyboardThe INET Web OS Smart terminal has a keyboard as its main user input interface. The layout is a standard QWERTY keyboard. The keyboard has tactile feedback to alert the user when a typing error has occurred in format. This will be especially useful in heads down data entry. The keyboard has Internet enabled features for easy browsing. Keys can finally be programmed for macros by the user. By application use. The keyboard speed and delay repeat time can also be set per application.
Namespace Locking ButtonsTo persist network and user security as a definitive goal, new strides in electronics will arm the device with effective buttons. The input will be translated into read only registers. Some devices and setups will include locks with keys. Advancements in BIOS monitoring will benefit application security. The technology is also used for low level and diagnostic installation access. Device drivers cannot be installed or changed without the function being turned on. This will prevent many types of security problems due to the short or sporadic usage time. VLISM Namespace Locking technology integrated within the motherboard super structure will combine physical world actions with digital decision information more accurately and securely within the domain of user interfaces than modern in process objects do.
RAMThe speed of RAM must be effective as a shared resource among the new parallel processors. The ability for compression to be used will also speed DMA transfers, L2 cache transfer and block memory algorithms. The portion used by video subsystem will support lossless compression directly (RLE) to the DAC from video memory (A000). However the information stored may already be compressed using a lossy streaming format (.aii). The memory management processor will support logical block operations even though the underlying data is compressed. To operate on a pixel or segment within the video buffer is desirable; not latch registers, not compressed data. New access operations will support two dimensional block access, transparent sprite management, segmented scrolling, circular based scrolling, page flipping, vertical block access, and horizontal operations.
Tracking Pointer Input (Mouse)A standard mouse should be available to the platform laptop. The system will support in hardware color pointer location rendering. Either the touch pad style or the detachable USB mouse style. The button states read from the port can be tied to Internet operations.
DMA ProcessorThe DMA processor will be a multi-channel DMA controller that allows independent access to various parts of the RAM. As well it should be implemented as an easily controlled device as many other processors on board will be utilizing it. Parallel processing will occur between several parts of the motherboard.
Intel ProcessorA standard Intel or compliant processor in place. Various versions can be made available. The nature of threading model should be oriented within the basic hardware design. Therefore Stack, Registers, EIP, ESP and L2 instruction cache can be implemented in high speed processor cache. This will greatly speed context switching. Perhaps advancements in optical BUS technology could extended the memory usage to an alternate location like shared memory.
BIOSThe BIOS will contain the latest routines that enable the computer to operate in a shielded Internet capacity. It will protect itself from viruses. The BIOS will be expanded to work within modern object oriented programming. This will reduce code space upon the CPU. A prime example of rewrite is the keyboard and text printing routines. Disk access will also be expanded to work with security and quota management. BIOS engineers are asked to provide fully functional implementations of needed routines. BIOS engineers are asked to provide hooks where additional functionality will be necessary by software developer. And most of all, BIOS engineers are asked provide a software platform to enable multiple chip communication using threading technology.
Video ProcessorThe video processor will be a main ingredient of the platform that smoothes the interface rendering to a fine degree. It will provide video acceleration of 2d and 3D drawings and animations. Some packages will only provide 2d capabilities. The specialized processor will provide font rendering capabilities in the 2d graphics realm and support vector based graphics with anti-aliasing for clear lines. The graphic card will accept drawing lists in a buffer that includes text (Unicode byte), pixel image data (2D and texture map), curves (NURB) and poly triangle display lists (3D). Optionally for space each of the components can be a memory address to shared ram for blit operations using DMA. The microprocessor will be freed from rendering fonts, lines and image data. The video processor high clock rate movement and tracking. Memory reading rates proportionally accelerated for 1 bit, 8 bit, 16 bit, 24 bit, and 32 true color mode. Maximum resolution developed by calculating the speed of the video DAC. Parallel processing in video has a very popular demand. If users can afford higher resolution and faster 3D graphics, the processors can be used to render specific areas of the screen from the tree. This design also allows innovative freedom of pipeline instructions that interpreted by the three dimensional processor.
Since parts of the interactive experience will be CGI video playback a specialized research project needs to be accomplished that determines the likely hood of real-time CGI video over the web at sixty frames per second. I propose that by abstracting light maps, gradients, and anti-aliasing information from the stream and sending this information as a separate package will enable the bulk graphic portion of the image to be compressed with a higher ratio. Then to facilitate sixty (FPS) frames per second, which is the standard, a real-time frame change algorithm will need to be implemented. This will enable minimum 3D processing on board the client and rely on the host for most of the render. A complex engineering problem of interaction of user interface devices.
The video processor or math processor must also be adept in video and image composite, stenciling, image resizing (bicubic, bilinear, smart, convolution filter matrix operations and advanced drawing commands such as smooth gradients, compressed image display and video rendering of various formats including mp4, jpeg, png, gif and tiff. Some of these features will never change, for example line drawing or smart resizing. The unique motherboard design supporting parallel processing should incorporate communication of data between the appropriate computing facilities to reduce redundant logic (new ASM instructions; CALL).
Audio ProcessorThe Audio processor (DSP) will have mp3/mp4 capabilities and wav form playback capabilities. Music on the Internet is so wide spread that a hardware implementation of a compressor, limiter, EQ and other audio features should be standard. It should support the normalization of audio to a specific DB so that audio never raises above a level that will damage ears. The audio component should allow sampling and real time encoding of mp4 audio using the compression processor for uploading and synchronization to the server.
Compression ProcessorA new compression processor will be designed to operate as an independent hardware object on compression and decompression of memory sources. Supporting Huffman compression, arithmetic coding, real time audio uLaw, mp4 encoding and other advanced compression algorithms. The compression ratios seen in stream formats like ZIP by PKWARE are impressive for many forms of data. The methodology of choosing good compression techniques for the current data-set is also a process that is included within the hardware design. There are many archive formats that will be supported by the file system. However, it should be noted the focus of the compression processor is a memory source. The specialized computing device will be able to work with ring buffers on input and output while maintaining state during external buffer consumption. Operating on high frequency and multiple channels (memory pointers), the processor will be used in low level network communications. Data should never be compressed multiple times, and signatures within the data will ensure single algorithm cycle.
The encryption processor will enable packages received in the communication pipeline to be efficiently decrypted and encrypted for upload and download. Because it will be a hardware resource, the strength of the cipher is greater than modern methods. The system will employ a bit level encryption algorithm that does not increase storage space considerably. The system will use hidden keys. Companies like ElcomSoft, a Russian held computer technology firm, specializes in unlocking encrypted sources. Hidden key segmentation uses each position of the identity for operating commands. A specialized encryption math coprocessor on each data package will yield electrical engineering hurtles for reversal analysts to solve. The ability for the information to be useful will be dependant upon time. Each package being uniquely signed by a distinct order and group of algorithms also ensure complexity. Hidden keys will be difficult to impersonate, each identity containing about a million bytes.
Internet Communication ProcessorA processor needs to be added that performs the queuing of the high speed traffic on the connection lines. Operating as a TCPIP stack operator. The computer must be able from a BIOS standpoint at boot to connect to a URL based web operating system vendor. The user will add or type the information at prompt when starting.
Memory Management ProcessorA hardware solution that solves various memory management functionalities of allocation, deallocation and block sorting is an advancement. Including searching algorithms and storage of data structures used in modern application design must be onboard. Allowing the processor to act in parallel can reduce user wait time and increase flexibility for CPU time. Timestamps and cache storage management logic with communication to the hard drive BIOS for memory allocation overflow will increase user adaptability for operating many different applications without ever shutting them off.
Math ProcessorA hardware solution that solves various math routines and decimal point issues will be necessary. Modern computation relies on the Arithmetic Logic Unit (ALU) within the processor. As well solving the MSB and LSB storage order for various platforms using hardware supported data types; conversion
Fiber Optic Bus Advancements for Server Home BaseThe integration of a high speed communication system within the terminal will require the forethought of allowing limitless additions to the microcomputer bus architecture. It can be incorporated in Server Technology for expansion use or the user embedded device where appropriate. The feasibility should be in tune with the cost technology curve. The main bus of the computer system could be fiber optic for speed yet modern bus speeds are excellent. There are numerous patents pending for optical bus communication systems. Including the technology will further the modularization of subsystems within the server and terminal providing for a very strong fixed asset.
Each processor within the system will have an in chip instruction cache. Each processor will have the capability to read and write directly and independently to RAM using the Memory Management processor. Typically an address of input and output within main memory will be given in the instruction queue. The processor must be able to signal completion. Use of the technology will allow more CPU assets or embedded subsystem equipment for video, audio. simulation or entertainment hardware relying on 'agent design' to be added by purchase of box. With fiber optic speed the possibilities are almost endless. Fiber Optical plugs are also more user friendly and durable.
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The device identification tag will be used to identify the computer on the Internet as a unique device as well as being used in the encryption algorithms. It will act as an anonymous serial number that is registered in the user's Web server account. If the device is stolen, this ID can be quickly taken out so that access to the user's data will be secure.
SpeakersFor multimedia use speakers, headphones and a microphone jack are available.
Device DriversDevice drivers that are used by the local rendering operating system will be drawn from the Internet connection at the time of the device installation if it is not stored in cache. This is a new feature of the INET computer platform. By using a new set of local functions stored, called IIOS, named after BIOS, device drivers will be quickly downloaded, compiled and installed. Overlay functionality may also be possible so that concurrent download and device use can take place.
ConnectionsThe implementation of a compiler system that is designed specifically for Internet execution and distribution should be flexible enough to adjust itself for user response time in proportion to the available connection speed. It will be a goal of the render client to accurately measure the download stream time and keep this information up to date and readily available. This information could be communicated as part of the protocol using an internal timestamp, by using statistics of gathered response metrics or by request means. Full blown applications, in machine code that is, are typically very large and therefore require time to download. Applications that rely on API are much smaller but run slower. Using an overlay system and dynamic background loading during program startup in conjunction with the Very Large Instruction Set Model (VLISM) will facilitate the needed boost in speed that allows the user to quickly start working. The overlay functionality generation will be dynamically created by the Web Server and this will be a complex problem to engineer.
One architecture to explore would be to use a predetermined list of bit rates. Connect each bit rate to a series of overlay bank process through relation. The overlay processes contain the most important functionality first, even sorted by historic use. Visual information, state changes, validation logic is the likely order.
To anchor the generalization that is needed, template oriented overlays can be used during compilation. The functional requirements of a user interface will include the editing control objects, image, sound, animation, textual data, numeric data, and super data types (dates, times, currency, web URL hyperlinks, etc.) will each have a multiple flow path definition for stream production. Size of each of the object's assets thus including the binary object itself will be a recorded value.
Within validation logic, key acceptance is one of the most important functions. A mask and parsing filter is present within the INET Smart Terminal that includes date, time, numeric and currency formats to solve this. The input filter is complete in its implementation focusing on event processing. Machine code can be placed within the filter pass that allows conditional key acceptance. The INET Smart Terminal features an on board feed back system for invalid user input that is appropriate for the user. Operational characteristics include tactile feedback upon the keyboard or a click sound. The Terminal also provides miniscule sound of a key press.
Use cases that arise were the complete VLISM foundation library is not present will be processed on the server using a completely different overlay path. Machine identity, and software state is a known constant on machines that are registered as an INET Smart Terminal. The INET Smart Terminal emulator that runs on Microsoft Windows, once fully installed, will measure software binary versions to communicate to the INET Web OS to make sure streams managed on server and local cache are compatible with the machine. In the use case, an unknown Microsoft Windows terminal is used to connect to the INET Web OS, first time ever, appropriate measurements will be benchmarked that categorize the machine's abilities in operating system version, available hardware, software and drivers. Stream key encryption will not be private unless the device is registered with a Hosting Provider. Machine code (Dynamic Namespace Engine or VLISM) will be produced that contains the necessary stream of Windows API calls for the operating system and their human input devices. Users of DOS, Linux, Mac OS X, Windows 3.1, 95, 98, ME, XP, Vista and current will be able to run the new software included in the Web Operating System.
The template overlays will expand or contract based on the specifics of the user interface requirements. The stream composite will provide first the basic rectangular, polygon coordinates, short object pointer of SoftSpot components within the user interface. The textual data will be associated with a screen object. The event machine code will be attached to events as a streamed source. The code bank process will allow change over from client code to server code based upon previous transmission history. The detailed screen image will be populated by a stream as well. The overlay banks would be switched dependant on the connection speed and therefore the only real noticeable artifact would be graphic image downloads and real-time audio playback quality. The audio mixing will be performed on the server of multiple channels so that a nice compact mp4 audio stream is available to the simple client.
Programs compiled using the system will allow the Web Server to query visual interface details ahead of time. If the program is document based, that will be a parameter of the query. This will be a service that runs under the web server category and will automatically be transparent to the users. Its job will be to store in a database all of the visual drawing language and startup overlay information. When execution of the program is requested by the client, it will be a fast SQL statement similar to "Select * from UserPrograms where pid='WordPad.exe' and Document='ReadMe.doc'" call to the database management system.
The visual interface drawing command language will be an XML dataset that describes the coordinates, color, fill type and other rendering functions associated with the visual appearance of the interface. There are many languages already available like the Microsoft RC file format, and HPGL. Perhaps some would even consider HTML to be one such language. However, VLISM contains a consolidated combination of these languages that is specifically designed for Internet transfer. A HTML document may compile to several text location commands, the textual data, and several text color changes, font changes or image position commands. These commands are natively supported by the VLISM engine. The VLISM is robust so that when time or space can be saved the appropriate functions are available.
A new protocol utilizing UDP packets, much like HTTP, that communicates hardware platform details including client display type, resolution, color depth, and media features available will be needed by the host computer when preparing the VLISM stream information. This way many different client devices can connect to the same centrally stored user information but through a different version of the VLISM stream. One that is specific to the client device connected. One reason this is a great benefit, for example, is the resolutions available to Pocket PCs are completely different than laptops. So by creating a unique visual interface for each platform, the same code will execute on the server. This is a very important feature of program maintenance.
Dividing the interface drawing logic and product from the work logic at this level allows greater client portability. No matter what device they are currently using be it the cell phone, mp3 player, portable next Gen laptop, or a pocket PC an operating interface will be there for the device. While the cell phone interface would be completely different than the full blown laptop version, the same connection point to the user's data can be utilized. The features available to the user are now increased tenfold because the data interconnectivity between devices is an absolute. This interconnectivity would be purely a function of the operating system interface vendor to enable.
More research is needed but a viable solution can be provided within a web server environment and development environment that encapsulates this functionality. Adoption by the industry of a standard Internet Assembly will also have to be accomplished (VLISM). So that, for example, when a user buys a new cell phone they simply encode their personal URL or plug in the INET USB Security Key into the phone and all the software, interface and connection points are gathered by the web server on the back end.
Absorbing the static void of the button bubble by clicking on the paint in Software Design and engineering is hard to do since you have so many strongly gifted individuals. These people understand that the key to writing a good technical document requires discipline; that which is unheard of in the mortal.
C++ code for example, does blister the eye of thousands when studying the details of the textual information. When programs are complete, the result should be considered a highly crafted technical document. Writing C++ programs can be likened to balancing descriptive words in a sequential logic. The document is a lightly based English one as most authors use decent names. This forms a flowing logic document called source code. Like English, these documents have sections that can be compared to paragraphs called routines. These source code documents have to be almost perfect to work correctly. When they are, you can compile them. The term compile means that the textual information is translated into a binary form; one that a digital computer can easily read.
In reality, compiling only increases the size of the information as the microprocessor instructions that unfold are more discrete steps. Compilation produces subset documents called object code that contain machine code. Digital computers can only execute machine code and they usually do so with small steps. Moving memory, adding a series of numbers, performing a search in memory or comparing two items for value are examples of small operations. It is usually by the comparison of values that most programs make decisions. A series of two dimensional decisions, also called a decision tree, can perform additional mathematics, transfer control of the program execution to another portion of the code or any desired programmer instruction within the given set.
Stack operations are important to modern object oriented programming. They facilitate transmission of data, or parameters, from one section of the code to another. These sections of code are called routines. Routines are small chunks of logic that are given to a specific task and at most times have a generalized reuse quality associated with them. In a stack, items are placed on the top with a push operation, and taken off the top with a pop operation. The routine, or snippet machine code actually uses the stack memory base address with an offset that points directly to the parameter data. When the machine code inside a routine requests a variable, the address of the stack parameter is given and thus is used for the memory operation. Now let us discuss how this relates to a network like the Internet.
Modern program execution uses a hybrid approach. Some of the programs that run are not considered direct machine code. A program has to run that interprets the intermediate code, better known as PCODE engine or a virtual machine. These specialized PCODE engines, usually have the design of an object oriented central processing unit - a sort of step above in simplistic microprocessor mnemonics. Dot Net and Java are the leading examples of this technology. This soft model of a CPU allows greater robustness, platform independence, smaller instruction payload (program size) and an objected oriented flexibility that just does not exist on pure machine instruction models like INTEL.
Since software engineering can make more robust design leaps quicker, that is soft, design patterns can be projected from the metaphorical, an object oriented approach has been utilized. Again, currently the two models for this are the Java Virtual Machine and the dot Net Virtual machine. since the block is authored as an object, as well as PCODE based, the code is only that much smaller. This makes it a better format for Internet transmission.
An expansion to Java VM offered as VLISM will be created. By expanding the instruction set for a softer model, applications written in many different programming languages can be managed. Other characteristics may include that the stream is sorted for Internet execution allowing for heavy use of overlays. The main purpose for the new format is a multi-language capable code that preserve space. The program will be compiled to machine code locally on the terminal giving high performance. As well, device drivers stored in a web server database by product model identification will be transmitted over the Internet to the local computer. By creating a robust library locally that is open source, Internet transmission of device drivers will be possible.
The future of computing has already been foreshadowed to be a networked and distributed processing resource. Users of the future will no longer have to carry around sophisticated and battery dependant equipment to do complex tasks. The heavy processing of the application can be off loaded to a server. However, network coverage and stability must rise to the occasion.
The computer that modern users carry or have at home are very complex in nature, possessing many operating electronics. The mainframe computers of yesteryear are sometimes not as powerful when compared. Yet in reality, the user does not need such a sophisticated laptop device to modify data. The users could just use a terminal. One that is specialized in graphic display, al la visual output and has the audio processing capabilities that are in modern PCs.
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Historical computing methods have lead computer scientists to craft a cornucopia of languages. Some examples are c, C++, Prolog, Ada, COBOL, Basic, Lisp, Python, TCL and Java. But there are still more. Investigations of language interoperability and platform independence have lead to the invention of virtual machine technology. Java and dot net are the shining examples of this technology architecture in use. A public domain broad study of computing languages must be maintained to advance Internet Assembly. This study can be used to produce a symbol code that houses all structured logic, object oriented, media streaming and artificial intelligence goal seeking languages. Exploited methods are: teleoperated assembly, JVM, and CP40. See Virtual Machine
The new symbol code or virtual machine assembler must be maintained as a open source standard of the computing industry to solve risk management issues. The industry must own this as a design implementation; a general public license agreement. The information source of the library word space domain will be contained and explained in book form as its basic reference. This will allow several manufactures the implementation set choice with expansion capabilities known by application. The development tools will support the transfiguration as well as the translation of the instruction set.
The Very Large Instruction Set Model is the most viable solution to the Internet Assembly issue. An important result of using a virtual machine assembly is the reduction of transmission bandwidth. VLISM web technology solves this issue by producing the most efficient in code space while considering the available name-spaces on the client. Compiling can optionally take place on the INET Stream compatible micro device or as binary output from the server direct to the device. The most preferred method will be compiling on the local device using a JIT. However some devices may not be capable of compiling, cell phones, digital cameras and click panels for example. Therefore, the process of transfer and compilation must be fault tolerant and capable of error recovery due to transmission problems.
A facet of performance that INET Web OS will improve is the data management and transfer functionality associated with current object technology. Incorporating compiled machine code instead of using interpreter technology and ahead of time memory allocation (size) on client device will shorten CPU cycles. These features lead to better type system management, garbage collection and performance because some aspects can be known about at compile time or at the time of transmission.
For example, textual lists will be transferred directly to user interface control memory areas via high speed block transfers or pointer operations. Modern methods rely on loop population logic. The cache version of the list held within the client can be measured as a incrementally updateable entity. So if the textual list information is the result of a database query, and that portion of the database has not been modified, retransmission will not be necessary.
Memory can be managed more effectively due to server calculations and implementation. Buffer sizes can be calculated on the server ahead of time while a pointer locally defines the tail. Since the conditional output of machine code (VLISM or ASM) is decided at the server level, the operations will be safer. JavaScript applications that make heavy use of strings for example, will benefit greatly in speed due to the nature of type safe UNICODE operations. Even managing the level of UNICODE package formats can be tailored in machine code to perfect the performance based upon the language use of the terminal.
The Very Large Instruction Set Model (VLISM) includes all of the run-time libraries that are common to modern programming languages. VLISM contains a robust virtual machine assembly mounted for numerous programming languages (compiler) to transform to without twisting design. VLISM provides file handling, database connectivity and open architecture dialog entry components. It is fashioned for business, data entry and getting information in the most efficient way. The local operating system will maintain the correct balance of user state information with the server providing the most fail-safe operation by application design. Information will be safe even if the device loses power or network transmission errors occur.
Each of the interface components are object oriented in design. Some of the best oriented naming structure can be derived from the W3C; Wigits Examples of interface components are: file locator, document locator, image locator, movie locator, audio locator, data locator (databases, record sets), visual diagramming, name fields, numeric, alphanumeric, paragraph text editor, credit card entry, checking, payment, email, phone, currency, shopping cart, catalog, spreadsheets, graphs, reporting, number fields, address and identification. For usability purposes, interface components that support highlight and segment selection must allow redo last selection state upon a friendly key state combination. Example, you spend time highlighting a portion of text and then inadvertently cause a loose selection state by a stray mouse click. To redo last know selection state, the user would hold the keys CTRL, Shift and Z. This feature will also be very useful with lasso and rectangle selection schemes.
Multiple segment selection of textual information and box selection will also be supported within the paragraph text editor. Controls that support cut, copy and paste commands will be linked to the INET System Wide Transfer Collaboration Buffer. The INET System Wide Transfer Collaboration Buffer can be managed using strictly mouse and keyboard operations. The INET User Sphere Workspace also supports a graphical management panel of the buffer to allow historical views of previously transferred items and their source. The controls that allow copy and paste will be expanded compared to modern UI to include Tree views, List boxes, and other read only views. Other screen objects such as labels can be copied using hot key combination in conjunction with the mouse. As well, copying the image to link retransmission communication or print processes will be checked by security privileges.
Upon the operating client, the captured information will be a vector draw list. Including CGI animation will allow video capture of application usage. A single frame can be manipulated. Sound and voice over can be set upon the video segment. The video editor (Film Fabricator) supports variable frame type rendering for mixing multiple media package types in stream. Typically these functionalities within media system designs are called Codecs. This vector draw list technology is realized within the INET Network Collaboration suite. In communication practices, an animated segment of an application's performance is better suited due to transmission characteristics. The common use of the captured form, as a modal communication method, can meet the demands of curtailed views. The adhoc system of print screen or cut and paste is redefined for business standards for security purposes.
The vector draw list interface capturing and rendering is a base technology feature. The high performance method can be used for recording, playback and real-time streaming of application visual responses. The technology also has the ability to optimize the visual output of application frame due to the flexible operating architecture of Octopus Controls. Even though the information is recorded using a preferred object skin, playback is configurable to utilize any installed control skin. This will make application video squeezing possible. That is, optionally a designer may change the playback skin by limiting the output to black and white polygon line information. This method is useful when designing training applications that have to re-size a normal full screen view to a forth of the size.
The publishing views are designed for the subject and the customer. The system will allow the delivery of data using personalized template formats. Matching the information format to the user's or business's desired visual communication policies and methods. Making ordinary seem more obvious in friendly format fits the eye of the beholder. If the object is a broadcast consumer task communication of a record set, and the information is a dyna-set view, the entire report including the details might include lacy graphic frame borders around the edges. Dyna-set view, an informal word, means here that the view is inclusive of the entire customer relationship. e.g. A sales slip will include the totals upon the screen as well as several other agreement paragraphs. The application feature provides an interface when quick reports need travel.
Communication of ideas, tasks or errors can also be more precise, providing the exact view of on screen information. Providing stream operation masks for censoring broadcast to be void of unneeded information and formatting during a relationship will solidify partnerships with publishing requirements. As well, providing link copy protection within the distributed information will allow preview of restricted content but not allow retransmission or duplication. For example, recording a three dimensional model rotating with user mouse movement can provide a good preview.
Some search and find applications to databases that are in-house or industry specifically published information systems will require INET SpotOut Technology. INET SpotOut Technology, an information Sanitization (classified information) processing filter that is within the broadcast render pipeline, can be controlled using rule dictionaries (IIP Dialect). Data marked as classified that is stored within a file will track the file's copy status to prevent network intrusions. Based upon the rule database, the file may not have the proper security to be copied. The destination of the copy may also play a major role within the permissions check. That is the file may be able to be copied to a place behind a firewall but not travel outside of it. Sanitization also refers to contents within a file such as a database record. Since management of a record, field or cell is accounted for by security, a high priority rule will suffice when a business just does not want a field to be published. Several methods of blocking these operations can be effective. It will be important for the system to monitor compounding security rules and flatten the processing stack upon duplicated associations. A form of object inheritance.
The database management facilities also include covering the specialized requirements of a trusted information device. Interesting relationships fan outwards in the complex recursive processes. INET trusted information device, as defined within the INET Web OS, has operations that remove items within a publication before communication occurs. The software development results and practices achieved through portal database communication methods as seen in low level ODBC will be managed effectively. The INET Web OS base Database Object API sets will be managed and monitored through this system.
Within the object code that the compiler produces, use of database secured fields will be managed in a virtual protected memory. The best use of a machine within the context of trusted information, is its ability to view the information but not retransmit the information to an non-authenticated recipient. Derivatives of the data can be tracked for retransmission artifacts closing the hole by analyzing the object code. A process that without server processing would lead to great complexities while tracking within a single computing entity setup.
Through compiler design, secure data fields are tracked for their projection upon the screen. That area of the screen is flagged as private protected by the client render operating system. This information comes from tracking information that the INET Stream compiler implants. If information is derivative, the historical cycle can be shown (user documented) within the associated publishing security administration application for a business system analyst to make a well informed decision. By cataloging these items, a search can be performed that will refine the information search boundary of a specific database field and its use within the entire application or system.
Applications that utilize any of the Octopus Controls will be certified to make use of the technology. The publishing rights are also managed by linking application use to a security privilege database rule structure. Rules can be even specific to a dialog, cell and field. Providing an administrator vast compilation changes with the right click contextual button like operation, a new tracking feature is distributed to all views and uses of a field column or data cell.
By centralizing the selection source and associating all references considered siblings and parents, data access rights management can be cradled for many businesses. Typically, only business analysts know the true results of information exposure. The verifiable output of a formula has significant meaning to the reader. In some circumstances, only a business analyst is educated properly to determine what the deductive implications of a field or cell asset has by being published. This feature will be supported within all aspects of VLISM technology.
In the operating lifestyle of an office person, setting security of information should be tied to a management audience. In most modern approaches, the best benefits are realized by using the base operating system security bits. These systems are located under the hood. Configuration and management of them becomes a systems administrator's task.
When the security panel is opened for a business directory on modern operating systems, immediately one can notice that there are many groups and many user names. Each of them has a detailed control panel associated. Not only are the control application specific traits in view but also the full operating system security traits. To consolidate and simplify the maintenance of these very important functional attributes, the INET Web Operating System will cater a new method. By altering the application access security to be contextually incorporated within the user work sphere and application interface, a stronger conceptual intention is gained.
Tying the items into an application's interface for common use makes sense in usability because initially that is the access layer management will know of. The signed on user must have the correct privileges to manage an application's security group. When the logged in user has the necessary security privileges, a new option will show upon the system counter-top space. Clicking it provides the application's security console. Within this view, the application's settings and security attributes are displayed. The view and information contained within relate specifically to the given application. The integrated system level component allows definition of specific named objects by a developer.
The functionality will also give designers and developers a way to define a primary set for an application that makes functional sense. For example, report printing or transfer. As well, new traits can be added by users. These traits will be specific to a application output file, application communication transmission task, dialog view, an application field, database field access, or application command button. This user interface concept provides a precise tool path to easily promote the proper security decisions being made by the right person.
The INET Application Usability model will provide suitable starting places for application user interface structure. These application behaviors will be stored within a template library for user by Web Publishing and Development tools. Within the Business Web Publishing layout structure, users can select templates that correspond to A desired user interface facility. Within the INET Publishing model, users have the capability of designing user interfaces that support a variety of searching and data mining. Multiple controls are spaced with proper underlying logic connections to provide a suitable platform for the template. For example, the user wants a database view search facility. The left panel contains a search field along with results, while the document view contains the detailed data. Dialogs can be made from raw data easily and as well databases created to hold the structure of the dialogs.
Supporting entry and editing capabilities of these control components might at first seem simple. Yet each of these fields on an international level could be an operation specific to the region; identification, address, phone. Based on the location and preferences of the user (locale), standard use is guaranteed. In addition to those special items, the W3C database of control names that were arrived at by opinion from the development community. GUI operation will be supported providing for the most advanced UI designs on the market. As the global community learned more, their breath became wind.
VLISM encompasses many bounds of computing science. Pushing the hurtle and crossing the line first, the object model absorbs distributed processing by allowing definition and measurement of object code, application data throughput, and dynamic microcode analysis of object use. These measurements allow the web server to deduce future operations of the user application context. A precise stream rendering will reduce data transmission bandwidth.
The system analyzes source and object code providing attributes that describe size, execution order, performance characteristics, and resource usage. The system records function input requirements and function output interpretation to reduce call invocation options. That is some calling interfaces will not be needed until a specific program operation is selection. The state code path incremental stream linking and incremental stream linking operations will reduce data transmission using block operations to expand and contract VLISM Spider JIT mnemonic routines.
These attributes are used to cross index a rendering rule database during many levels of an application's life cycle. The searching structure of the rendering rule database achieves inheritance and overriding capabilities within its dictionary syntax to allow developers a confining territory of explicitness. In some circumstances, automated facilities of code and architecture that produce subset data need tuning when observing human created applications.
The VLISM name-space provides a robust library of mathematics that include digital signal processing. Likewise, compression algorithms, encryption and image processing are accessible. VLISM includes objects for audio streaming and video streaming that are held within the context of the quality of service manager. Audio editing and are supported over a network as well.
VLISM includes objects and mnemonics for string operations, array management, searching, sorting, tuple spaces, grammar parsing, socket communication, http, ftp, mail, html, web scripting languages, web navigation hierarchy control, two dimensional animation, three dimensional animation, three dimensional modeling, natural language processing, optical character recognition, font typography, robotics, language translation, sales (transactions) functions, business object linking, artificial intelligence algorithms, digital data management (DRM), threading, graphical interfaces, USB functions, and three dimensional transformations (distributed balanced tree network scene-graph). Multi-user network collaboration is also within the domain.
The INET Client VLISM Spider JIT provides good performance balanced with transmission speed using incremental stream technology. While researching good formats, as a reference the Java Byte Code is an excellent resource for maintaining CPU model cores with an object oriented call style. In fact, the INET Web OS platform incorporates Java Byte Code as a intrinsic application format. Supplying a secure operating system and client platform model for java byte code and the entire Java JRE within the compilation and transmission schema strengthens industrial compatibility. Common Intermediate Language is a very comprehensive format that is high performance. However both implementations lack the expressiveness of Internet application usage that facilitates basic Internet stream to platform support. VLISM also has platform and operating system service capabilities enabled. Some aspects of the VLISM stream container format are a higher form of object assembly that also supports distributed application interface usability. From the server the image of the user interface is shown. The model also maintains a closer native relationship with the device. More research needs to be done to complete the list and ensure package comprehensiveness.
When the server and client handshake using the model, product id, and machine ID, a mask is loaded that defines what instructions are supported by the device. This information is used to design an experience that is compatible for the device. For example some advanced mathematics routines will run on the server but the output will be sent back to the device when needed. Server side processing will output the most efficient stream the device can handle while considering the supported instruction name-spaces and general machine use. Users can imply their needs directly by using the stream residency widget. The stream residency widget, shows state of application connection as well as providing menu operations to refine the experience. The stream residency widget also controls render compatibility. This architecture provides backwards compatibility and allows existing application products an upgrade path in high performance distributed web computing. New stream segments (components) could add different hardware capabilities.
The VLISM name-space incorporates modern video format streams with rendering filter support audio stream support. Filtering of video content will take place upon the server. Controls such as brightness, saturation, hue and contrast will be processed in stream at the server. Options such as a comb filter, noise reduction, and sharpness convolution matrices are supported at the server. Using inheritance, the rendering cycle also includes user preferences by device as the last stage in the pipeline. Size is reduced or enlarged for the proper layout upon the terminal. The playback render-er supports quality of service automated buffering. As well, users may set manually the time window of the anti-skip QOS media buffer.
The local device will provide a security layer for applications or rather individual operating systems. The security sandbox consisting of: protected memory access, protected code access, ring level services, window functions with context desktop, censorship protection (INET SpotOut), file system access, device driver compiler, VLISM compiler, object version manager, local quota management, program to program communication, Internet stream encryption/decryption, virus protection, locked VLISM name-spaces using a physical button and program/data recovery held at server side. A limit on minute playback and rewind are possible paths to explore within mission critical environments. Protection methods of modern CPUs rely on masks that identify ring and access privileges for memory access. Instruction execution privilege also relate to ring and source.
The INET Smart Terminal hardware includes encryption, decryption of Internet streams so that the integrity of ecommerce can be maintained. That is, program data must be held in strict confidence in some circumstances. The banking ecommerce functionality of the IIOS is such as case. Cipher Key integrity must be maintained. The device driver that handles stream encryption/decryption, a driver registered for direct access to the new INET embedded processors, will be will be secure.
Code blocks will be considered successfully transferred by using data integrity checking algorithms like CRC or a better method. Protected memory access will keep programs from modifying non owned or non shared data. Protected code access will ensure that applications only access a code base secured for the Internet channel and application of context. Quota management will allow applications to use storage capabilities of the device while not affecting security.
The VLISM compatible device will contain hardware assisted unrolling of functions. This will provide an efficient environment for the Internet assembly engine. The hardware unroll assist includes a memory bank switching algorithm in conjunction with template processing. The routines will be quickly copied from specific ram locations to instruction cache ram using computed tables consisting of memory location offsets, code lengths. An essential performance enhancement made at the Direct Memory Access controller (DMA) will provide the necessary registers to contain the numeric array.
The new DMA controller has a special memory operation that allows finite recursion. Some VLISM code will be furthered reduced to the native CPU instruction set as a block operation from memory. So the new DMA controller will be able to quickly build buffers from several locations given a set of instructions, the computed tables. The copied code is expanded using template instructions during the time of memory to instruction cache transfer. Instruction banks are changed based on the operating system object being requested. The routine or method is unrolled inline providing for the fastest execution while saving memory. This expansion is independent of other memory transfers to provide the most seamless through put.
The advancement of Internet computing does rely on usability of the applications. VLISM enhances this by applying a new higher level API namespace that reduces transfer load while tracking the model base on the machine. Speed is also increased by allowing the design of applications to be pure streams sorted according to use. So only the instructions needed are downloaded first. Users have to be impressed with speed while providing for the best distributed computing capabilities. New hardware instructions and a new computer design must be sought to magnify the process of compiling and executing applications under the VLISM virtual machine. In short, hardware support of these operations will be essential to the Internet application performance of tomorrow.
References to consider:
Software development efforts of the past have first sought to deliver a working product. As platform technology expanded, application development only got complex. That can be understood from comparing MS DOS programs to Modern Windows programs. While there are more features, specifically relating to usability, most of the misunderstood development tasks relate to integrating with the core platform. Developers and System Analysts know the core language, business logic and their tasks in usability. When problems occur they can be debugged.
After the company has spent years developing a software application, most of it is thrown to the wind because it is incompatible with the latest and greatest. Yet the core logic never changed and the core language did not change. The INET development environment, a technology platform of Internet streaming, plans to embark upon a more ethical relationship with developers and businesses. By focusing on methods that allow the developed technology to be integrated within other products easier, the company's software holdings will have higher fixed asset value over a given duration.
A facet of deployment is integration with other software packages. Well thought out methods of open source data sharing such as the Microsoft technologies OLE and Active X are of good benefit. Yet the user cannot make the decision of what to tie together. Integrating complete applications together within the Microsoft platform is a task that requires finesse in some circles. Message sending, hooking and window message capturing is one route, yet the data is still not integrated.
It is the plan of the INET system to further the sharing technology by allowing developers and users to glue applications together if needed. Seamless user interface integration and data sharing is a goal feature; Uniglue. Menus, toolbars, application fields, calculations methods, inner application frames and of course complete windows will be suited for a drag and drop glue. Linking two fields together using a data clone method, will make one field read only thus depending upon the parent for the data. The relationship can be broken using an option upon the associated contextual menu. In effect this ties to two applications together relying upon code execution to produce the value. Circumstances may require additional setup, controlled again by interface and automation; e.g. primary or secondary application log-in. There should be no limit to the chaining of these items. For example one application uses a field that displays a calculated result. A secondary application uses this value, produced by a series of database operations, to arrive at a new product. The new product is used again in a third application for view. To derive the final result, if only the third application is summoned forth, multiple code bases will need to be tied together.
Consider for example an application that does inventory control, a restaurant menu, a purchase order system, and a time clock employee time keeper. The difficult tasks in allowing integration will be in developing a platform object system that maintains a catalog of field input/view data items that relate to screen input. Once combined together at the server to create the stream, performance will not be affected. Other aspects of an application that need to be instance based because of file access storage can be handled by storing the information within the database. File handling APIs will connect normally through the existing application logic.
Users will have access to this feature in all applications since the INET framework will support Uniglue objects. This includes base applications, reporting/publishing and third party developed software. Of course applications that are written specifically for the platform, by conversion or new development will have greater support. This feature will be served within the development languages themselves. The feature will be available to applications that are transferred without magnificent translation, but on these applications there might be limitations on data sharing. To the user, converted applications will respond and allow glue objects appearing normal.
Benefits of reusable technology better known as object technology are its ability to speed development and deployment. The reuse qualities lie within the development arena and its purpose has little to do with the end user. Automation will be built into the objects which will enhance usefulness, To the user it is simply a common program library that applications use. Deployment strategies of modern component technology integrates binary version tracking of the library and alias names. The underlying architecture of the INET object system will be robust enough to handle partial transfer of logic and visual rendering lists to provide flexibility during overlay processing.
The underlying object management system for both visual and logic objects of the INET web server technology will include version tracking. A major benefit of stream service will be tighter integration of object messaging, parameter passing, method realization and method invocation. The format of the binary object will include a dependency tree for each property, method, instance variable and code path, making the object storage size on the server larger. Other metrics about the code path will include CPU requirements, object dependencies, memory requirements, special hardware requirements, and graphical user interface response blocks. This information must exist for the code path, method and entire object. The information will be used by the web server to make intelligent decisions about application execution over the duration of the device registration and use life cycle. This will allow incremental library updates for application specific requirements. Example, one object uses a library routine with a string parameter. After further use, an application is installed that uses the same library routine yet uses a string and a numeric parameter. The portions of code change will be applied to the first block to morph a suitable dual routine. As well, the compiler system must include a block tagging system that will identify the code as server oriented or client oriented. Artificial recognition means do lead to productive cycles however several cases arise when the developer will make a better decision.
The dependency tree will be used to calculate order and instruction content for the stream. Consider for example an application input screen designed with the spreadsheet application. In this form, the user can input a series of numbers and several formulas update automatically. As well, graphs are available and the information is uploaded to a database. Graphs will be rendered from the server while the formulas will be processed on the local machine. In this example, the benefit of INET Object Technology will be the formula update performance and VLISM code realized. Most formula processors work by first parsing an input string that defines the complete calculation, Hungarian notation or postfix stack. But in an input only template, the complete formula processor and associated math library will not be needed. So a concise version of the user formula will be executed on the client. This will the developer and user higher effective use of the onboard processor by reducing instruction space.
The web server will compute a near optimum implementation for the connected device while retaining the many benefits of object discovery within the development process. Most of the realized advantages of object oriented programming are within source code text, not execution.
Several benefits can be achieved by the implementation of such a distributed system. By isolating the interface rendering logic from the operating system and application using a steaming object command system such as suggested by the INET platform, multiple code bases can be combined together thus further reducing the cost of maintenance internally at many software firms. Developers will be able to be competently ensured that their application programs will run on any platform, be capable of Internet distribution, real-time Internet streaming execution and being served on a full blown modern desktop personal computer.
It has always been a desire of the public to use a fast, smooth and slick visual interface on computer systems. In fact it has been the main attraction to the Personal Computer as the adopted platform. Color screens are a good argument for fact. By implementing such a system, it gives developers the ability to reorganize the name space.
The graphic vector output structure will exist in three dimensions and combine with a model editor. Using fast direct video memory access at the application interval will provide tight pixel control and large area changes quickly. As well, the fluidity of image magnification will be high because of base platform requirements. The user will be able to dynamically increase the size of the entire view port or objects within the view port. As a usability feature, the centroid of magnification will be based upon the natural states of the user interface. Users re-size something they are viewing to read or enhance the definition. The area that the mouse is over will take precedence during re-size and remain stationary. This will help with usability.
The object oriented graphical control construction kit that the INET Web OS incorporates will give focus to fields in the desired order. The object's methods provides easy visual state modifications by container (object) name using the animation format. Incorporating user interface devices using an event and super event system gives the developer real time control with quick response time. Using high speed and high definition to deliver content will be visually appealing for the user. The best attributes of robust mainframe technology and consumer grade electronics will be combined using a streaming object oriented design.
A total artistic composition is not completely implemented with stage dramatics, lighting, and crafted CGI artwork to be used for dynamic interface rendering within the medium of computer applications yet. People want ray traced images to view because they are more accurate for the eye. This is what the eyes naturally are designed for - photographic images. Ray tracing can provide visual materials more accurately including: glass, plastic, metals, gold or any material really describable within scene graph technology.
Rendering the fonts on the server could be argued for some devices. Yet in reality a dynamic font system will be necessary for robust functionality. This will be a management of the server itself to perform on the client, ensuing the proper fonts are cached locally for rendering. Anti aliasing information can be associated in structure with the data sent to the device. A vector stream will describe character representations in draw list format.
By detaching the graphic user interface rendering system from the main message communication system into distinct processing cycles; a streaming architecture can be utilized. The stream management will consist of a display list, a dynamic display list with state logic, data dictionary object and user interface device hardware communication object.
One function of INET VLISM will be the management of user interface rendering details, supporting state logic and response validation (HID) as well as a state manager of user input; mouse click. Using stored cache renders on the local device will speed visual response on the second use. This will make a record in a database. By grouping the drawing command structures and machine code logic associated with dialog and visual interface operation to be a consolidated structured stream, the INET VLISM Stream format will be an important architecture entity providing future growth in the software market.
When users are logged onto the system, a pool of record connections will be maintained for a given directory / file state. Database connections will also be held. This will provide robust ahead of time computed information for browsing, summary, and application startup stream formatted for their device. One click and data is sent. One could argue the case for File Allocation Tables in memory simply enough. This is a network device and user response will be a primary function.
The web server operating system will be more robust than a personal computer operating system as it will communicate with numerous devices in native format. Remote internet devices and local wireless devices will be authenticated for user connection. This will allow users running large hardware computing centers at their home or central office a small laptop version with excellent security. Since the queue, user data, program data, and Internet overlay stream for the device have been precompiled, encryption can occur quickly if that is not ahead of time as well. That is encryption methods may be different depending on the device connected.
In short, the INET system should be designed as a completely independent system that can run on its own microprocessor and as a base system that connects to a mainframe, or on a robust personal computer platform such as ones existing today. The Internet distribution of operating system components, and application components, does not enable cross platform computing. HTML web browsers currently are not advanced enough to support good user interface applications. Java is not a complete implementation of this system and the distributed interface rendering model allows more flexibility and faster performance than currently available.
Available Technical references
The ability for the INET Web OS to project interfaces to multiple versions of existing thin clients must be well planned and supported. This only strengthens the ability of world wide support for the Operating System and its applications. To consider security functions within each of these environments for application and operating system function is relevant. Currently the most distributed method comes with an Operating System. Internet Browsing precedes the Web OS interface cast (VLISM Spider JIT) or projection in its modern raw form using a HTML HTTP browser. See Explorer, Google Chrome, Firefox and Safari. Technically top entry points to user interface display with validation and response are JavaScript, HTML, and CSS. As well, Internet browsers support a version of the JRE for Java applets. Adobe Shockwave is a largely distributed streaming engine that will be supported. Mobile devices typically use the Java Micro Edition.
A best experience attitude must be adopted by the version detection schema during log in. The user should also be able to modify the projection face plate style to suit their preferences, hopefully from within the dirty sandbox. A selection list that notes availability would be the preferred gadget. If a Windows Operating System face plate is selected, operations may vary based upon the historical use of the machine. A committed transitional user interface technology point is the distribution of the VLISM Spider JIT. In its form as an Active X COM component it can operate within a selected browsing application. The format between browser applications is different. Only the necessary, least amount of download must spawn the usage of an INET Web OS. The ability to support fluid synchronization interfaces and operations will be easier with this open technology. The COM component will be important to quantifying migration points of INET Technology within the user's lifestyle.
Consider the versatility involved within the main entry points of the INET Web OS. The first use of an INET Web OS application may draw most of its operation by directly using the Microsoft Windows API library. This will undeniably provide the absolute minimum install operation to view a bitmap image, for example, since the base API has several functions to facilitate. Further transmission and use by the second will fan the internally expanding macro microcode space VLISM Spider JIT to utilize INET Web OS Specific Technologies such as image display (.aii), font technology (vector 3D), instruction compression (OOP algorithms), device management (quota management, synchronization, cache, security, tracking), memory management (allocation, union, garbage, clean), game mechanics engine and other libraries. This will provide a selectable cohesiveness to the user's current operating model fashioned securely in place. Ultimately this will control how applications are executed. Features of each of the technologies may later be added to bring more precise operation and configuration. The transition between qualities should be verifiable by the install and make purposeful sense to activities. The bottom line will be the best machine performance; Games. Due to base operating system; security will be a big venture. Perhaps, strides by Microsoft could overcome some of the design issues but, eventually a new broad stroke will need to take place to flatten the Internet sphere.
A second, but primary in its function, install choice will coexist as a hard drive boot partition, providing a boot strap for the INET Web OS. This boot strap can also persist upon a USB key to directly tie the power on function with a remote computing resource. The motivation will be drawn directly together to encompass the VLISM Spider JIT within an autonomous personal computing operating system to provide optimum performance based upon machine use. There are features of an operating system that some applications rely upon to operate. It is hoped that even the kernel and running state cycle can be tuned and monitored to be most effective. Relying on the major contributions of Linux as a reference base, booting the OS will retrieve last memory states from both the local and remote device. A secondary boot strap can start a specific on the go desktop that has known order. Capturing the user's common communication and application use based upon history, the desktop starts in a snap to allow quick use. Device driver management will be accomplished using the Internet. This operating system disc will provide users a complete change over experience. Marketed on CD/DVD/BluRay for modern personal computing devices, INET Smart Terminals and trusted information devices, with the level of encryption and security certification. Facets of operation allow translation and transfer of old data to new Web OS formats.
There is a performance gain by using a system that deploys distributed applications and distributed operating systems, the machine will not be over burdened. Modern operating system do allow one to select components to install, however they do not allow image control as granular; except methods requiring Linux kernel compiling. The system will provide the best experience available to older hardware. The Operating system is distributed as a precise block version for the machine and computer use. The light model of the INET Web OS Client (Smart Terminal Emulator), will unlock the machines potential by not placing unneeded application and OS components into process queue and memory. The machine will be there to run applications while the server will be used for all of the intensive data tasks.
The minimalist face plate implementation can be taken upon initial use of the INET Web OS. JavaScript and HTML as a thin layer entrance to provide fluffy web content is a usable feature some users may not vary from. Compression of HTML elements will be a first migration point; JavaScript variable and name-space alias include within script. Transmission of binary HTML tokens can reduced in transmission types and be formed by the initial use of the JavaScript document model operations. Within the scope, to fully consider the platform support for the browser and the make does affect render operation and performance. Render operations will be managed for HTML as an object persistence, modeling the W3C version of the Document Object Model as a priority. Second, the render layer will consider the browser specific implementations of the fluid platform components and technologies. This will increase the flexibility and performance of the user experience. The JavaScript version will be necessary to support as a distinct Web OS entity. A library of available objects within the sandbox is also very potent to interface delivery. Microsoft Internet Explorer includes a plethora of JavaScript network safe COM pastries: Image Effects, Direct X, Direct Sound, Direct 3D, and Data Access Objects.
Poor benefits can be achieved while using older hardware due to the nature of the COM architecture and its use within the browser. As well, some user interface content, fully drilled, can be too large. Using too many layers as a means of placing information into the browser can cause user wait time and jerkiness during use. Some COM technologies applied with older hardware can cause periods where the interface locks. Issues with consuming too much memory, overuse of memory management tasks, overuse of the processor, searching, and token verification can be experienced. This is overcome with a code space tighter in cohesion to the nature of the machine duty cycle; VLISM Spider JIT. After all, these technologies (GUID identity) make development of software easier but not ran better within the user space.
Security and unwanted management time occur to users of these OCX, COM, and DLL packages. It can become a witch hunt sometimes. A dozen versions of a name space duplicate software installation beyond the management capabilities of most user's knowledge; something upon their drive, something in their alley to sweep. By the main program skeleton they are catapulted into a checked persistence using a gum rapper as identified by most modern computer scientists. The library system and communication method adds labor upon central processing unit of the user's in hand device. Each component, adhering to design with inner and outer walls for communication. Formatting the memory to be plugged into the corresponding class as a basic call method must be a form fit during the compile step that is specific to the application and its use of the function. Providing modular component use of this kind can be performed as a micro incremental step using the INET Object Architecture.
The icloud OS, a competing technology platform, is effective because it increases the logical access quantity of the small foot print device to a larger magnitude. One hundred and fifty gigabyte storage capacity on an iPhone is an amazing feature. The team at icloud provides an online desktop to facilitate this need. The desktop is attractive and extensive. The system includes several applications. The development process includes new compilers that use pure textual web input and output. There are even apps that can be downloaded into smart phones to provide information synchronization between multiple devices and operating systems. In some cases, the email system these phones incorporate is used for transfer. Users can manage multimedia for multiple portable devices. The user's data is stored on icloud's drive where synchronization centrally takes place. There is an application that users can employ to upload all of their files at once (Windows, MAC). icloud's product fills usefully a technology gap for many users.
One of the drawbacks of using browser technologies is that VLISM and machine code can not be directly executed on the client from the server. Configuration of an INET Web OS Faceplate emitter to use JRE or Java ME will have better performance for many computer languages (also applications). The Shockwave SWF presentation engine can also provide a very effective experience for the user. In conclusion, the best performance operation of the INET Web OS on a third party client will be the INET VLISM Spider JIT. The INET VLISM Spider JIT's library cache can persist on a USB drive, allowing for less download between multiple computing devices. A version of the JIT will be designed for Windows, Unix, Linux, and Apple Mac OS.
LCD and computer monitors of today are capable of displaying photographic materials in captivating detail. The application side of the presentation lacks the broadcast quality that mass media demands. By including ray tracing of solid three-dimensional models with the appropriate scene graph held server side, photo-realism can be achieved on the desktop and in applications. Batch processing will be essential yet produce amazing results because ray tracing is a computationally intensive task. Graphic based objects that are made for Internet network usage, called project octopus, will provide the tightest integration between client and host delivering the most usable interface quickest to the client device. Octopus controls are consumers of the web stream.
Currently modern graphic user interface (GUI) applications all operate in a visual draft mode. Most of the visual output displayed in GUI applications are the result of real time drawing algorithms that use two dimensional vectors with some minor shading. Some applications display a graphic in the background. By using ray tracing on the server side, a higher quality output can be achieved and save local central processing unit (CPU) time for users.
Server stream applications are different that executable programs like that of windows applications. In real time execution of a windows application, the controls and background rendering all occur as part of the execution of graphic primitives. These methods rely on the CPU to invoke these functions. And these functions operate within the context of a video buffer drawing lines, points, arcs, circles, and block image transfers. Windows applications must be installed on the machine that is being used, they are not sequential. And during execution application executable must load its initial layer. Stream applications already have a VLISM compatible platform engine installed within the BIOS of the Hybrid Embedded device. Stream applications have several precompiled visual renderings to boost user response time regardless of the transmission medium. The transmission medium could be a hard drive, an Internet cable, wireless connection, USB key, etc.
By application design, a scene graph will be created from the database table that stores the drawing information. This is simply a matter of creating controls that are composed of high definition textured polygons, triangles, NURBS and 2D vector functions. By placing these onto a plane using standard 4x4 matrix transformations a window view can be built. The plane will be representative of a window background and GUI controls. The window background may be augmented to include bevels, light maps, bitmap or include bump maps. Controls will be greatly enhanced due to the next generation output technology. The possibilities are endless by integrating artistry, creativity, logic, math and science to provide a robust GUI output layer.
A pipeline process will become apparent, likened to a graphic production studio standard, that incorporates layers, texturing and blending. Perhaps even new usability strides will be made due to the new output capabilities. Any business will be able to deliver their very own platform or application at the precise output quality; utilizing in any capacity the display area that is secured for their channel.
This generation of business asset will be more valuable than their current holdings due to longevity of the open design and premium output quality. This will increase the success of consumer attraction and enhance the user's experience by allowing the business to project interfaces that are dedicated to their business appeal and processes. In short, a more distinct and direct branding approach is through three-dimensional animation modeling.
Many improvements of screen real estate will be understood by incorporating the new .aii image file format on a thin layer software and hardware window. The .aii (Alien Image Interlace) file format will incorporate the use of lossey compression, lossless compression, resizing level of detail (cache or algorithm), morphing size blender, multiple animation aesthetics emphasizing usability, and a sequentially sorted stream visually keyed upon render quality to project on the client display device. It is significant and will be an integral part of the INET technology. The CODEC will be available for relicense as open source and the end result will provide near lossless compression given complete transmission.
The . aii image format uses a multidimensional file storage mechanism; much like directory based ones are designed today. This allows high performance access to block detail information and resizing information stored and sorted for sequential Internet stream transfer. The end result will enhance the usage of LCD in modern day, giving artists and consumers full range at server level allowing the client access.
By creating a smooth transition between lossless and lossy similar to jpeg - DCT (jPeg compression technologies or a select filter type less information will be sent creating a stream of intelligible visual output for the client first in pure stream form.
Level of detail is important when you are dealing with multiple image resolutions, especially on a fine granular level. Other architecture elements of the INET .aii file format will encompass LOD data transmission, storage, and prediction. The computer language implementations will include automation of zooming with numeric speed sets. Enabling direction, quadrant changes and panning to easily occur.
One parameter of the LOD file format will be the upper and lower resolution bounds of the absolute pixel storage (range). Another will be the unit resolution separation, that is the distance between one real image resolution and the next. Compression of this type of information should be likened to Mpeg's video compression algorithm. The inter frame data is the specific term. The codec on the client side will have sufficient logic to use this information for rendering. Morphing and blending the LOD images on the client side using a high frame interpolation will greatly benefit Document Imaging and Medical Imaging.
Image processing of this nature is essential in the reduction of data to transmit before images become visually intelligible. Speed of the User Interface must not be affected because of additional image resolution details that appear later upon reception. Smoothly. The file format will be designed to persist as a memory structure capable of adding information real time, either compression loss information or resolution enhancements. This will be a major factor in usability, reducing visual response time for network operation.
By measuring the quality of service, response time can be a controlled variable of compression quality and detail. It should be noted that LOD compression and Jpeg's compression quality are distinct. This feature is very important to the INET web server operating system.
The storage must be a single file unit for easy storage and catalog of the contents. Color ripple balancing and many other photographic operations will be included. Relational databases are support using binary large field (BLOB).
Expansion:
Related:
The idea behind image compression is so simple. Just reduce the amount of variance or describe the variance in a smaller space. Some discoveries have lead scientists to reorder data using algorithms that can be reversed. One method is called the Burrows-Wheeler Transform. The BWT is a non specific data algorithm, that is it is not directly related to image processing. By reversing the operations on the data positions the original package format can be rendered. The sorting allows higher compression because many characters are repeated (run length encoding).
In image compression it is important to remember what you are looking at. One aspect of image processing is color depth. By reducing the color depth transmission of data can be reduced in a major way for the initial package. Methods have also been developed that reduce nearest similar colors in proportion to visual observation. DCT is a selection algorithm that chooses the best pattern and color depth for a given block area, usually a 16x16 area. The DCT algorithm reduces color variance inside a given macro block. The result shows square artifacts within the image and the structure does not allow details to be later populated. Network bandwidth is never taken into account during transmission, and the user must wait for the contents of a frame to be transmitted before render can happen.
A new method rooted in statistical analysis, polygon areas, color range plotting and edge detection would be more effective for network usability. People take images of order and coherent items. Natural groupings are there. The best streaming algorithm will produce visual results quickest that are likened to the final result. The data structures will allow details to be later transfer and integrated with non noticeable visual artifacts using computed bandwidth credentials. Take for illustrative example the alien image file format. Initially color trees are empty on client and populated on server. Transmission of major background colors, polygon areas along with their colors. A render will occur at that time of the basic polygon information. Next more detail data will be transmitted compared to a texture map. The amount of data sent at once will be proportional to the point to point network time. The amount of data transmitted on the second pass will be a resized image.
Variance between slides within the server held file will be computed and available for tighter integration and for quick performance. The codec will reduce data using weighted means, statistically inspecting color, neighbor relations and position importance. Neighbor colors will be described by bit status in the download stream. The bits signifying the closest color match in palette. Within the tree structure, suited for dynamic growth, if the leaf is not there during search, the bit status is used set the render color to a numeric domain. Recursive search algorithms will be utilized to find duplicate paths and update color weight values. Image quality will be increased by storing variance of two dimensional neighbors.
A node tree will be formed in memory from the color bytes (see model below). These data nodes will branch out to other relating neighbors using position, color and luminescence to form their link The origin will be calculated as the centroid. Information tangent will be described the same way but only occurring later in the stream. Rendering will be more pleasing to the eye during network transfer because the user will get the abstract first. Details and quality will be transfer and blended. The product will be that visual response time is drastically increased while quality is based upon network speed. The consequent video codec will factor in network timing information for real time performance, thus automatically compensating for network latency. The state will have a direct communication the server.
By calculating the frequency values of color area coverage a weighted network will be created. Through searching and sorting, variance in transmission frames will be reduced to optimal effectiveness for bandwidth. Thus allowing center colors coverage even in some cases overall luminance. The tree structure itself allows render of subsequent information easier. Providing a relation in a three dimensional way and sorting by resolution can also achieve LOD. The data after this reduction processing will be processed by a sliding window compression.
The basic frame of the .aii file format will relate itself to LOD neighbors to allow for finite transmission. Devices will only show the appropriate size for their display area. By applying this technology as an open source high fidelity on the fly image compression algorithm, document imaging technologies, cataloging systems and image service, viewing image media will be much improved for everyone. By providing intrinsic support of the compression on the INET device, transferring CGI content such as the desktop asset images will be faster. Visual Objects and their assets will reside in a relational database or within the file system. The associated content will be synchronized matching the client to the server.
.aii and many formats of compression will likely be a server only operation due to the complexity of building the relational data structures and computation tasks. However, the resulting .aii package will give artists full range, allowing the user to select the level of detail and magnification of any image source. This will be installed as a major component within the INET Smart Computing Terminal.
For pixel based formats where the vector information is not known ahead of time, many codecs for stream playback are already in existence. Some code bases have better qualities but lost in market usability due to burdened security testing. However, the mathematics behind the compression algorithm is still very relevant to explore within the realm of handling stream formats. For example, a large driving name for video playback used to be the Indeo codec. Codecs like these have certain performance characteristics that make them well suited for high frame-rate and high quality playback. In modern day, some aspects of technology such as color depth have transcended these stream formats. Supporting these stream formats will be an exercise of server processing. Enabling the proper security considerations within the software.
Alien Image Interlace
See Also:
Commercial web browsers such as Microsoft Internet Explorer, Safari, and Foxfire are used by many users of computer systems to explore the realm of vast information stored on the web. To accomplish this feat the web browsers utilize two protocols called TCP (Telecommunication Protocol) and IP (Internet Protocol). They are commonly known together as TCP/IP. TCP/IP is a unified communication system that provides a reliable way to send and receive data on the Internet.
Web Servers communicate with the web browser using a data package format called HTTP, which is an abbreviation for hyper text transmission protocol. Many complex things are indeed hidden from users as they peruse Internet information. By decreasing the amount of data sent to browsers using compression in addition to pre-formatting the HTML information for easier parsing using binary entities, users will experience a tremendous speed boost when using the Internet.
The INET Web Browser will transcend these methods by also incorporating the needed information to plot the digital data using coordinates, color, font vector data, vectors, triangles, geometric model forms, specific features, special attributes, and large component payload data clipped by view-port into stream form. The data within the stream will be sorted by impressionistic qualities to achieve the highest bandwidth performance. The actual browsing communication will be ran upon the server while the interface runs on the client, a distributed application. The interface between devices will vary based upon screen size and functional need.
Logically implemented as an API set to allow third-party development of browsing interfaces, the code base will unify web textual programming, data with translation needs, Octopus interface controls, OOP and compilation methodologies. As well, providing intelligent translation of web pages that are geared for specific web browsers to form will be necessary. These methods will follow forth into the third-party web server deployment strategy to strengthen compatibilities with all web browsers. HTML and its accouterments are source documents.
The INET Client VLISM Spider JIT (Web Browser) command stream interface is tuned to handle many granular forms of transmission types. This will provide the capabilities for installing components real-time while seeing image results first. This simulation experience is developed by the INET Web Source API set. The system maintains the balance between HTML, script and associated data with the terminal and the host. Video games are a highly flexible genre of software that communicate rapid speed stories. Titles like these may see great benefit from the technology. Three dimensional models are not malicious.
A window that displays text such as an HTML browser needs special attention during granular magnifications. One must consider that text and the measurement for usability as implied by natural use is practiced by usability, individual preference and device capability. To consider the single frame as a two dimensional vector view-port will strengthen the association with the items as a display list. Including two dimensional images and textual information as a stream line will provide a breezy calculation upon re-size using the scaling transformations. Realizing boundaries and implementing word-wrap, after touch modifications, links, and glow will be associated with data structures. An operation needing compilation in C++ or ASM is the best opportunity for local hardware usage.
Providing these capability for any application will increase global acceptance of the platform as better performance increases are shown. The operating cycle of the application interface architecture will have a tighter call stack to facilitate a web browser. The broadcast application display area will be punctuated by full screen templates and logic events. Even working precisely by macro-block pixel using a network image balanced tree transfer for images and video will be of benefit. The .aii stream spread will conduct bitmap data using compression while providing ultimate quality upon a lazy basis. When frame rate consumption is too high while playing video, the data transmission will operate within a tolerance. Just like anything, people need the now.
Decreasing the amount of data sent to browsers using compression is a key factor in reducing bandwidth usage. Many dial-up providers use compression methods now to allow users faster Internet usage. Characteristics describing the type of information being sent will be sensed within the INET Web Source API technology to determine the compression algorithm to use by the device. Limiting the information to viewable first will also strengthen the display speed. These qualities will be distributed within INET Web OS Publishing to achieve prefabricated data content yet still maintain its open source use of HTML. Historic use will intelligently balance the sever work for device usage. The system will still use the transformation process to send non cached data first; an algorithm that is well tuned.
The Huffman algorithm is commonly used for textual and dictionary data. The algorithm first calculates the frequency of all the character data or repetitions of characters in the package. Then by representing the information in a binary tree, the most frequent letters or pCodes are represented by the least amount of bits, the bit stream is constructed. Typically for standard text documents a 10:1 compression ratio is achieved. So that means transmission time of the standard HTML will happen ten times faster.
Another useful set of compression algorithms are dictionary based. When the dictionary is prebuilt, stored on the target machine, indexes are sent in the stream to denote the word or phrase. Planning to use the centralized source of the spell checking dictionary will introduce new design aspects that affect the database interface and search. The design with the extra columns in the data structure will speed the index search during decompression. The column will be a transform of the dictionary compression; an assignment.
Another type of dictionary compression uses a dynamic system in form; LZW. LZW is used when the dictionary is unknown. LZW uses a sliding window to look for dictionary items ahead within the buffer offset. Scanning for matches and balancing size for the window. Thus the dictionary is built dynamically. By replacing the items in the stream with the dictionary identities, the information is reduced. This algorithm is well suited for binary and textual data. Media specific compression for three dimensional game engine data and program logic will be specified for the domain. Lossy Logic, a new type of overlay and data type compression will be implemented for the specific domain.
Formatting the HTML tags to be known stream structures using binary entities (tags) will enable a web browser to quickly display a web page because the parsing will already be accomplished. These can be considered instructions with payload data. Optimum yet non fail safe methods will be a union structure. Validating the object and parameter integrity can be considered failsafe if the package passed validity check using the signature. HTML compression can occur by assigning each HTML tag a unique 16 bit numeric. A small reduction of the data-set will occur but more importantly this will enable a binary file format.
Increasing the compression focus for HTML syntax may prove bit-level by compression experts. Structuring the stream for identity and payload for direct stream consumption will ultimately spindle flowering messages amongst VLISM instruction implementations. The structure of this binary file format will simply load into the Document Object Model (DOM) of the browser directly from the web server. Most of the time, if web pages do not use scripting excessively, the DOM can be partially filled or excluded from creation during the session; a display only scenario. This information will need sensing and communication of it to the translator, compressor and compiler pipeline. The information will be sorted so that display takes place in order of importance. And not all of the HTML information has to be sent to the user when it is not in view; font vectors; layout block instructions, compressed instructions, and data.
The streaming qualities of the HTML format should not be tampered with as this is an important feature of the Internet. The W3C group maintains a high quality standard, yet others often argue differently. The INET Web OS system plans to compress data before transmission with binary structures that implement the desires of HTML document view as well as the fluid application dynamics associated with high frame rate applications. It plans to increase the throughput of the stream. By including broadcast application interface pixels or vector data with associated event response logic in VLISM mnemonic stream format, the computing form will be illustrated flicker free and with almost native performance. The new processor hardware assists for JIT compilation templates will provide a steady cycle. The browser will support protected data queue processing for upload and download in asynchronous mode clarifying the data capturing instrument necessity. INET Octopus controls will possess polygon areas of the scrolling view port. Scene-graph technology seems evident in a practical manner for this model.
Within the conceptual context of web applications, asynchronous threading models are often poorly handled as the user's workspace grows with more document tabs or work. Ineffective use of related core technologies and architecture transform into the gigabyte memory usage easily within modern browsing applications; on one machine. It is the desire of Microsoft to use the awesome layout capabilities of official HTML within its platform capabilities and products because of its extensiveness. Comparing nicely, using a view-port clipping algorithm while still enabling all the functionality of third-party vendors with the distributed stream interface component architecture, the INET Web OS system, will link numeric precision and its quick search capability to scene-graph technology; display list. A hardware buffer that contains the dirty draw list is the desired method.
HTML and all of its functionality will not be easy to manage. A heavy client implementation of HTML parsing is not necessary to instruct the client drawing facilities in a complete page render. WML is a comparing train of thought but is a directly correlated to a markup language proper and not data structure oriented; c struct. The WML DTD is quite trim and will be supported as well.
On board, the system will use the stream's ingredients to populate the scene graph object's hierarchy. Perhaps sixteen bits as an binary index to mnemonics representing a total of sixty five thousand five hundred and thirty six instructions will be sufficient. As well, a Unicode Compressed index used for referencing the font vector array to produce drawing mnemonics for the symbols is necessary. Algorithmic data compression, and dictionary compression will happen before this render function process.
Unicode is the international standard method for representing basic textual data. The capabilities of the compilers and their display logic will be supported. Unicode is a four byte standard for character symbol representation (see Wikipedia: Unicode). Researching will find that GB18030 is included as well to support Chinese applications and information. GB18030 is the Chinese government's standard. The Unicode Compression described here is the method that is recommended for native use, storing and transmitting. This increases the complexity of the core API but supports natively, international code pages.
The Operating System's and its APIs capacity to operate upon this data effectively must be primed first and logically transparent. When considering software adaptation to the INET Web OS platform model, some reference operations that are absolute byte addressing will require modification. String operation logic for internationalization must be more generalized, a practice adopted by the developer. The INET System will provide this functionality automatically as Java does. As well, by including a library of Unicode String operations, native (managed) processing language programmers will have a standard working set. These issues do effect the entire design of the INET Web Operating System, the underlying C++ compiler, the meta languages and VLISM Spider JIT compiler. Microsoft dot NET and Java implement these information technologies to solicit international use effectively.
Maintaining relating links during international team work of development projects and user application sharing is beneficial because of language sharing issues. Chinese for example, consumes less space per word and thought than English does. Comments and string literals within program source must be handled properly during translation (machine or human). When two developers from different continents or languages create, modify, view or compile a source project, literals are extracted and placed into a distinct data space managed by code page language within the object code, VLISM Stream or Language Resource Table. The program editors, text editors and file handling technology will be more complex, yet gain a considerable payoff within architecture cohesiveness; less code less bugs.
Planning for the VLISM architecture to include a viable threading model to suspend view change logic upon tab change will be likened to a formal task change in windows. As well, it will allow background data operations and application defined logic operations. Albeit, these threads are a responsibility of the Web Browser process (also User Sphere Explorer) space when applications arrive within surfing data, the time slicing algorithm will be distributed better. That is, not waiting upon browser code.
The INET Web OS and its web browser will continue the support of pure textual web development and include user editing tools as a base product. Users must be able to manage content from the basic syntax structure and have access to tied documentation about the form (reference, book and example). These tools will support language translation and information sphere building. Integrated as a textual editing component to support spell check and grammar, the tools will be very useful. Database operations that are sometimes available to browsers using specific language syntax will also be supported. Another tool will provide the capability to enable page editing and layout tasks without HTML in the forefront. New tab view will be available using the UNIGlue object technology within the user workspace. Information is synchronized between the two properly. HTML is an accessible language to many.
The Web Browser will have its own process stack. Applications can be launched from within the frame that become a web process entity as so understood by the INET Web OS security model. Controlling security risk instruction set availabilities by application type, owner, license and location attributes is a function of the INET Web OS and its communication to the terminal running the browsing interface logic. If applications are formally installed, they can be granted an amount of trust which is different than alternate sources.
Web pages and web applications have a distinctive mask that subtract potentially intrusive operations. Because the encompassing system is implemented as a high performance JIT, little noticeable speed differences will be realized when the user changes from local to remote applications. As well, more trust can be placed in the transmission format due to the encryption and cache methods. Remote applications may take time to download into cache but include the additional user interface benefits available for the terminal. Providing quota and storage management functionality will be a function of the security mask interpretation.
Web browsers of modern day include the Java facilities but lose cohesion when many different technologies must be used together. Providing good user interface operations using current technology and future technology, regardless of ownership competition, is a mission critical goal of the INET Web OS System. Doing so will enhance the user's experience and allow for a more robust user interface to be presented to the user. Some competitor products block the input of information and hamper its execution upon the platform because of competition. The JavaScript language, being object oriented, does provide adequate hooks for the operation of control objects as an integrated experience of the web page. However, when mixing systems, the coding scope and user experience become unsteady.
By modifying the web browser to allow standard operation of tab keys from one field to the next, more advanced user interfaces than are currently available would be within grasp to many platforms. Integrating the complete functionality of copy, cut and paste within the system is a success story. Covering Digital Media Rights Managements security within this context is relevant. Dynamic screen resizing is also an important factor with Java Applets. If the information has to be full screen based, or fit within an HTML table column. The layout must flow evenly. The information must be readable and utilize the screen resolutions of the client machine effectively. Providing a seamless interface aesthetically and functionally by allowing matching output properties of HTML, Java, JavaScript, Shockwave SWF, Silverlight, .NET, and any other web stream technologies is quite beneficial. Enhancing the Java paint target algorithm to include transparent and polygon applet shapes will increase its dynamic usage within web pages. Targeting a method of unifying these technologies as they use server database and file tasks is essential for usefulness, maintenance plans, and the learning curve.
The flexibility for HTML view to operate as a textual markup language that is used to render multimedia will be broadly distributed amongst all application technologies, e.g. Reporting, Database Processing - XML/XSL, HTML in games. The applications will be web enabled after compilation. Adding the functionality to expand upon the description of the font should be an INET only experience; 3D fonts.
Users of INET Web OS Internet publishing suites will experience higher speed in all Internet application interfaces while offering to the third-party market a compatible experience. The Web Browser will be a trusted information viewer (consider copyrighted materials) to allow robust and higher quality content; individuals that are paid are devoted. Providing open source of the binary transmission format (VLISM) is as necessary as the HTML consortium itself. The result will achieve more professional communication activities and actual multitasking operation. The view port stream clipping algorithm will combine many forms of application data and event logic; a large pipe line process. Some parts of the algorithm will operate within a cache structure for optimum efficiency.
To incorporate these features into existing web servers will be difficult as many web pages are not static but are dynamically created. Providing hardware assists that take a string and convert the HTML tags and words to binary form matching the dictionary version on the target machine may be appropriate for third party support. Using an additional pre-transmission filter on an Microsoft IIS web server will work but is a performance related task. The INET Web Server OS will provide this as a base feature. Java scripts inside the page will already be in VLISM form so that execution of them is quick and snappy.
By using compression and a binary file format together web users can experience a faster Internet. By using these existing techniques, bandwidth usage will be reduced. This spread world-wide will allow more effective cost management of the global Internet resource. That is preserving the resource: bandwidth. It is a goal of the INET Web Operating System to accomplish this. Just as Alchemy is relevant within science, the INET stream format will provide on-demand, disease free experiences.
ImageMagick is an amazing collection of scientific image processing routines. There are many tools that utilize the code for product expansion. A web component that utilizes standard ASCII commands stored in files is necessary. This component will allow easy title creation, type setting, dynamic image creation and vector .aii file creation at the server side. Imagine being able to, through just changing the ASCII text on a web page, kick off an miraculous render of title text; the kinds you can only get after hours of editing in a good graphic editor. This component will enhance applications, web publishing and websites due to the dynamic generation of high quality graphic images. As well, it will increase productivity, maintainability and re-usability of valuable marketing assets.
The INET Server component will be
seamless because the time stamp on the file will be compared to the status of
the render commands. An example implementation within the html file would
enclose itself directly in the src parameter as follows:
This operation can be likened to that of a cache operation, but it will use the file system as its storage. Glows on text, alpha blending on graphics, will be extremely detailed. Styles of textured text with user augmented geometric forms and multiple layer compositing using color blending will be an easy option to invoke.
People spend a lot of time making something look perfect for a reason. Yet sometimes, some graphic elements or layers might change depending on business mood or personal mood. By incorporating the component at the ASCII text language combined with a YACC parser, or a better grammar definition utility in the server implementation, the ability for a web server to automatically generate the graphic image (png, jpg, bmp etc.) will be available. As a logical static image, the asset could be rendered on off line time or when the file timestamps of the render do not match the source dimg (Dynamic Image) file. This flip flop logic will aid when many new titles are modified or if files are copied to the server.
The graphic and typesetting language should be well defined schematically. This will allow ease of usage and propagation within the market. The language will be designed so that it has connection with many user's knowledge bases. For example being able to do simple things like just create a button with a great bevel and make it look three dimensional should be one or two lines of options. Creating additions should be as easy as creating a layer and adding items to it. Therefore an object oriented paradigm will be essential.
Making the language object oriented will allow reuse of external texturing and shader object definitions. For example, to get a certain type of glow effect, some authors may already have the artistic knowledge of the language to define a nice one, so it should be a namespace include of the file. Allowing users to include the glow object definition allows ease of implementation and remarket of title board source. This type of system will fit nicely within the confines of the HTML page, or external files due to the textual nature of web source. A complete reference of the language must include vector graphics, color controls, tool operations, layering, texturing, three dimensional geometric form build up, bump mapping, lighting, stenciling, masking and include a robust library of effects. The language structure should support version for backwards compiler compatibility and allow version mix where appropriate. Internet discovery of objects and namespaces during compilation can be a nice feature yet this raises issues of security. Allowing for a file dependency hierarchy within the YACC graphic rendering language will also promote maintainability.
Creating a compiler that produces VLISM code for the title board asset build while maintaining a parameter based input will speed build performance. Likened to incremental linking and compilation, parts of the asset can be maintained within a known working directory on the server to increase throughput even more. To reduce code redundancy, libraries will support the VLISM draw list. The user should be able to adjust textual information of the message as well as parameters to the effects. The resulting program executable should rely on textual and parameter input from a file that is easily modified within the constraints of web source.
The compiler should optionally build an editing application for the title board parameters and provide feedback as the GUI input changes. The application should use the interface glue object architecture. A panel notebook interface or a tree list with a property panel view is appropriate. Security for this asset maintenance tool is essential. Some aspects of the draw list may not be effectively managed through this interface. A detailed line drawing for example. These image characteristics will be left up to the INET Title Board illustrator application. The focus of the editing application must not be forsaken. It is a tool for a web administrator or Sales/Promotion Analyst to modify text output, font, style, texture, layer order, and effect chain parameters, not the underlying vector line drawing. With the application they should be able to modify the coordinates of a specific layer. The title board source must always match. Editing the image directly will result in it eventually getting overwritten.
Website maintainability is increased due to the reuse of information and by allowing aesthetic based changes to occur easily. Most importantly, the main message can be easily modified. For example if the user wants to just change the logo text on the third line, a text edit will suffice. Or if a specific graphic layer is dependent on output of another program, this can be a function call or parameter. In all cases, the parameters for generating the item will be stored in the source file rather than a flattened image file. A combination of server side photo editing, and ImageMagick is a viable market. Both should conform to a specification of the dimg graphic rendering language.
The underlying font system of the INET Web Server OS will be intrinsically vector based. Providing symbol definition through lines, function curves and ellipse. At most times, the font system is used to display two dimensional renderings of characters. Yet providing methods to populate a plane within a scene graph must be readily available. The geometry within the characters themselves, that is the surface face of the font, must be variable. Several augmentations may apply including bevels, spheres, jagged rock, clay sculpture, wax spikes, and hairy geometric forms. Of course texture, lighting and animation apply after.
There are two uses of the font system: 3d or 2d. The 2d vector output should be translated for the best fit for the device stream: a font palette. The 2d vector fonts will be the most used. Antialias and LCD edge color correction information should be included within the palette. This information will define sensitive areas where curves exist. During the render of the symbol display list, this information will become an alpha composite instruction that smoothes sensitive spots thus improving readability.
The dynamic font system should support variable property configuration of face specifics. The amount of change should be measured proportional to the pixel space usage and font mold. Notice the sharp spikes on the "M" character. Being able to project the Baseline of a font to a desired vector or curve within a geometric volume is necessary. As well, the ability to define a morph target or geometric shape augmentation mesh will expand the artist's palette. The following list includes the most common terms used to describe font characters and symbols, object representation will be necessary. Ligature, Letter-spacing, Kerning, Majuscule, Minuscule, Small caps, Initial, x-height, Baseline, Median, Cap height, Ascender, Descender, Diacritics, Counter, Text figures, Subscript and superscript, Dingbat, and Glyph.
The title board technology should be available for installation as a web component or any web server. Target platforms include Unix, Apple and Microsoft operating systems. Yet the main integration target is the INET web server. This does not decrease the profitability because the program that creates the dimg graphic file would be marketable as a stand alone application. Perhaps a market for dimg objects will be created as well. Because the technology will be standardized and open format, many web authoring tools will employ this imagining technology, The system should include ray tracing as an option. In short, this addition to web technology will deliver richer content to users and allow web masters easy access to maintenance aspects.
Designing a database that houses all of the capabilities contained within ROM, CPU, and Hardware Resources of yesteryear platforms will bring many application benefits to the INET Web OS. The database is filled on a function basis so that native application translation to VLISM can occur. The goal of this important subsystem fulfills a life time benefit to business design and procedures of the entire digital industry worldwide. There are many applications that were written yesterday that will need to run tomorrow.
Because these ROM and hardware capabilities come from a group of knowledgeable software developers, the database can be considered to be an expert knowledge system. Most attempts at emulation are from the token aspect and they require real time performance consideration. Translation in the INET web server will be a background batch task since users register devices. Hence the applications will run faster due to native performance. As well, since many application technologies will be distributed processing web enabled, access and security to these older business systems (generalized applications) will be more flexible.
Good production tools developed by the appropriate companies along with scientific resource procurement, global distribution technology, and global education are key factors for competition within the modern application market. The change from a command line compiling to an Integrated Development Environment (IDE) made software development much easier because editing source code, debugging object code and operating the compiler were menu user interface driven; less had to be learned initially. Borland Turbo Pascal/C++/Basic/Prolog during the late eighties was a leap ahead in technology not because the hardware technology of the time could not perform the function, but simply because the creator sought a new design. Other companies quickly followed suit and even expanded on the user interface technology. The INET Web OS will also use this platform technology for application development and application translation.
One of the most difficult problems that computer scientists working on the INET project need to start thinking about is "What is the most efficient case of web server programming with streaming overlays to an embedded device with time constraints for server access, encryption, transport, decryption, render, embedded state?" . Another problem is what should the server send first. And how to get that information.
By using a high performance database design for compilation on the web server while structuring the application development tasks for stream production, the user will experience quicker application startup. Exposing the interface objects by categorizing them by functional purpose will provide necessary logic routes for subsequent accesses. Labeling in the application database that menu items within a dialog are menu items for a certain access level. The access level is derived from user application access. That is the first route of the application interface will include the top level menu and the most used menu items. The database record will also contain an order tree numeric that will be used by the stream service. Permutations of a menu state are sought by function state thus altering the visual menu for purposeful distinction. The database records that compose the visual rendering are stored by compiler design. List population and other related database entry population for each field are stored logically within the application database. Control states and rendering characteristics are also stored within the database.
The INET web server will compile the application code to the database to produce simple, complex, render command list, ray traced image picture, animations, language machine translations, VLISM version target, testing, and machine code records. This will occur in batch. If the device connected is a simple dumb terminal or a high speed INET embedded terminal the appropriate stream will be available for access quickly. The user data and underlying object code will remain in a separate table from the visual application stream.
Depending on server settings arrived at by usual connection characteristics, the output stream that is created for the device(s) will provide the most effective "use" proportional to bandwidth measurement while considering response time. For example, the data in the first network package (stream) not contain the entire string array for a given control object. Yet it will contain the most effective description of the visual rendering along with a partial string list that fits into the buffer composite. The buffer composite will be built real time by mixing the appropriate tables for the device to reduce redundant data storage. Because INET Octopus controls are flicker free, down stream population will not affect visual renderings. Usually the most note able problem is the number of items needs to be computed so that the scroll bars are proportioned correctly.
By balancing the computing payload between the embedded device and the server, the web server operating system will solve the distribution problem, take better advantage of modern hardware and provide competition given a good ethical business model worldwide. Because the INET Web OS is a very complex stream service engine, several components should be available for resale to other vendors. Some efforts of software development would make these targets open source and free but the research and development time needs appropriate profit. The VLISM Compiling Web Server platform, Device Driver Database, and Digital Data Protection Transfer Service should be available for resale to Web OS vendors. This does not mean that there could not be competing VLISM compiler engines with unique designs, in fact competition is desired within the market. For example, the Sony Corporation creates a new computing cluster available to home users. The device is distinct and unique in design so that it has specific hardware. Yet because of the object oriented design, a specific VLISM platform compiler is needed. That is the platform has database specific hardware for faster storage and retrieval. An object oriented design of this nature will allow competition within the Web Operating System Market, the included desktop features, and provide flexible competition in the base application distribution. This will allow any country, any company to be a provider of a desktop operating system.
User data should always be transferable to other systems without transmission flaw. User data, the result of programs and human device input should be easily condensed to atomic state but retain memory of the original source. This is the XML XSL argument for editing and typesetting. Compiled code that is VLISM stream compatible will be stored in a database table. All of these forms of data structuring provide a leap in providing future transmission of user data to alternate forms. The server operating system will balance the amount of data held local on the device allowing for storage of compiled code, dialogs, and user data depending on the type of device connected and preferences.
Second is how to incorporate older systems into the conversion process that will need to take place. Take for example the Timex Sinclair ROM. An emulator or binary reader will load the exact system, port identifications and hardware resource identifiers with a relating database of capabilities. These capabilities will be associated with a usage so that conversion may take place. Even going so far as to place a relationship network of capable code is imagined. Then loading a standard Z80 BASIC program will be queried for output and input necessities while detailing the logic in a historical tree structure for later inspection. There are so many valuable programs already written that reuse will be effective for users. Even providing math routines of TI ROM will be nice.
Allowing for modern storage capabilities will be an excellent opportunity to define and implement for these platforms. See operating systems in www.wikipedia.org for a detailed list. The final destination will be reuse of software that was not available to most users before. Calculators, pocket computers, game systems, windows applications, cell phone software, and other embedded devices could be managed within the system. Any software engineer appreciates the time it takes to deliver an application or software system. Each device will have a distinct namespace within VLISM so that many systems can be managed within the server operating system. This will allow for new forms of streams to be registered for transmission as well. Adoption of older systems may be useful depending on how old they are. That will be a decision of product release, yet incorporating the concept in the INET web server operating system will be essential once the ball is rolling with millions of people using the embedded devices for their applications, videos, pictures, music - all centrally stored; safe.
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The first overlay stream of the INET system will be the basic line drawing information (or control identifications if installed) and the textual information of the edit screen. This will include vector coordinates of both the text, and rectangles (controls). The user can begin editing immediately to allow excellent user response. The client operating system will handle the editing, transmission, and rendering of the Internet connection in multitask allowing for the greatest seamless performance.
In most cases, the controls that are necessary for operation will already be installed on the device. The code base that is installed will be part of the world standard. In the case when they are not installed, it is important that the overlay process take place. This will allow greater dynamic range of the device itself and give flexibility to the hosting provider. An interesting point will be the visual transition between the basic data entry screen sent within the first packet, to the fully detailed version. This aspect will have to be tested for usability to find what the best method will be. A fade in will do nicely but remember this is only for the use case that the controls and dialog screens are not stored in cache.
One important aspect of the web server operating system is the information storage and retrieval system held in a logical drive server side. By application design, most program information will be ready for the user's device in a database table or linked file for quick transmission. When users add new devices, their applications and interfaces are collected from the manufacture and stored on the server. Using a relational database design; the engine can also link to a file on disk when desired; as the basic storage system, further refining program logic concepts and objects will yield a one to many information transfer. That is for one application, there will be many types of streams and versions of the application that can get transmitted. Yet for the user's context there will perhaps be at most ten versions. Or precisely, the number of devices times the number of users allowed on their account. Visited here is application licensing, now being able to prevent more pirating by tracking number of users according to uses at the server side.
When comparing INET Web OS to modern technology many improvements will be made in the distribution of computing resources. When a user state is being held in the server computer for example, a pooled context of the user's known applications will be in the memory array waiting for transmission. Memory and disc speed alone can account for this. Client connections will be provided with a quality of service agreement that is appropriate for the bandwidth pipe. Administrator privileges can modify the group or individual client.
Robust linking of information using machine reading comprehension could be furthered by using a specialized cataloging system and recent advancements in Artificial Intelligence. Users will have access through hyperlink every topic within a document using online resources. Definitions of words should be a seamless interface along with other relevant information. Most times users want a specific type of information that relates yet is in a different media form. This can also be achieved using cooperation with media publishers and cataloging, an already on going effort. Manual methods of sorting can be enhanced using visual recognition trained for noun object recognition. Typically these algorithms do require an exhaustive computing effort compared to desktop performance, yet the gathered characteristics summary is simple enough that searching can take place by textual descriptions. This type of linking is typically only performed on servers anyway. Providing these capabilities are possible with INET web technology.
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The high performance multi-teir data access and free format file system the INET Web OS offers includes buffered ASCII, Flat File, high-level file access of application data, Unicode, multiple language edit control, random access byte oriented, random access fixed structure, cross platform variable record access, hierarchical, keyed, hashed, segmented, sequential, historical, change data, format versioning, secure access XML, language translation, object database and relational database access (VLDM) in one unified model with source target chaining. The data access layer supports URL based requests robustly. Enabling server based parsing for reference access to any formatted data on an authenticated server. Utilizing keyword, id, numeric GUID, with direct server based indexing of information will provide businesses the knowledge (formula, conversion, report, field, data typed value, text, INET SoftSpot) they need for completing publications. The ability for publishers and consumers to manage a list of URL requests for public domain reference or paid lease while incorporating publishing laws will enable more precise data to be shared upon the internet. Providing a local streamed performance cache algorithm will provide the necessary performance for multiple requests to the data set. A necessary sport of the high-level file access is that it include application, audio, video, sign, report and image formats. Translation formats. The system is a syntax light object data pipe once operating source is defined. The output can be anyone of the objects within the INET Universal Data Domain, a breathing entity.
By centralizing applications to be distributed over the Internet, as described by the INET vision, a new era of global application sharing will be enabled. Most developers of business applications, or any type of application for that matter, do not themselves have the resources to produce international language applications. These skills are quite rare in the market. However, with machine translation, the language barrier is obviously broken. How difficult is it to translate the OK button, or the &File menu?
Modern methods of software development offer string tables as a solution. To use them, the developer must identify all strings within the source code, user interface definition, information messages, and status text to place them into a separate file (Resource Files). In this architecture, each string has a unique identity, the developer calls an API with the id to load the string. During compilation, the appropriate file is named for the correct string to be placed into the data segment portion of the executable. Within the INET development workspace, strings of this nature will be identified automatically and tagged for translatable text.
There are other types of specialized translations that need to occur for the system to work globally. Names, addresses, and currency are some of the localization issues. One design solution would be to create panels of the items and place them into distinct groups. Matching each of the information panels to a complex database field (eg. currency and date) will be easy for developers to deploy. A small artificial intelligence database will need to be maintained that describes the scenarios and offer matching results during stream compilation.
The advanced executable storage format enabled by the compiler will make automatic translation possible. Some tools exist in modern development that cover the area yet are often not employed due to the need for a resource file . Business rules will also apply to localization problems. The INET Development system offers developers and business analyst the ability to easily manage multiple flow based upon local ID. By enabling the web server applications of INET to tightly integrate with machine translation, broad spectrum global data processing would be a reality.
Employing machine translation will benefit application deployment to many nations. GUI elements like field names on entry screens, menus, and some pop up messages will be a target for the machine translation engine. With INET's International control library, that is an adherence to the international consortium for GUI usability, fields like name and address will be logically transferable. Yet machine translation's depth and accuracy do need fine tuning. Therefore a direct editing feature is also available.
A communication application must be in place to enable full depth translation of all INET digital data content while maintaining data integrity. The application must be project based and made for the work flow of a translation consultant firm or individual. Incorporating tools like spell checking, machine translation, versioning and other specific tools for the translation arena should be included. Scheduling is an important feature that can be measured based upon time projections made by the translation consultant firm and updated automatically by the system as progress is made within their work flow; the firm may have a steady stream of business to account for. Billing may be done on an hourly basis or project basis so the project time should be a metric recorded. Consider credit card processing an integrated aspect, user pays for an accurate translation. Project appraisal for translation and estimates will be a facet.
The audience of the translation application must be assessed and fulfilled; this application is key technology. The target audience will most likely be a non technical individual. It is presumed that a typical heads up split window display would be appropriate. Dependent on the project type, a context within the project must be known. That is needed to identify GUI layout standards and practices for the language or culture.
The translation application could offer a preview of a dialog window as the translation progresses. The ability to mark original content that has been translated, sentences or thoughts, is a beneficial feature. Proof reading is an integral part of the process, it needs to be understood how technology can improve this by study of translation consultant's work flow. Proof reading might be performed in a team basis if the firm has resources, this affects scheduling and accuracy. Translators and proof readers must be tracked within the system for future verification and integration within a legal system necessary.
The content of the translation will be stored in a database using version, historical and hierarchical storage algorithms. The application must be written to work over a network connection, remotely secure. Some facets of the translation may require communication by voice, fax, email or video phone. So contact information should be maintained. The user email system or VOIP communication suite of their choice will be seamlessly integrated. Due to the object oriented nature of INET applications, this will be accomplished with skillful dexterity. A log must be maintained by the project coordination event handler which affects scheduling.
Considering that the INET Internationalization application is project based, it will integrate into the appropriate target project on the Host, whether it is a development project, presentation, seminar, user document, text to voice over for film production, multimedia project, digital office data or other output. For example, development projects typically use a source repository and database tables for storage. This process should not conflict with ongoing development projects but maintain stable state and allow a conscious integration within the project. User documents or seminars, will simply be a database update and rebuild of the seminar stream being served. So the submission of the translated digital data will cause notification events and will support a background automation event.
The application must tie home users, businesses, government, developers and translators into a community, enabling effective project management, secure translation resources and proof reading of the digital data. Some translations need secure proof reading for accuracy; government materials for example. Yet another possibility would be pen pals translating as a favor. Do not forget some translation companies may only work with a type of data or project. A locked setup of translation resources would be beneficial in some scenarios. And some translations must be privately handled within the confines of a secure network environment that is inside a firewall perimeter; an inner office group solution like the United Nations. The INET Internationalization Application must be robust enough to handle all these cases, confirming the security and accuracy of the translation produced yet maintain a general user audience. It must provide good choices for resources based upon the user's need and offer no confusion. Their digital data is important.
Version control must be maintained between milestone digital data releases, for example new software releases. If dependent changes were made, only those changes should be highlighted and managed when the translation request is posted. The historical notes of the translator should be maintained as it may be useful in a team environment. The language choice will be served from the application server to the INET device in the default selected language. The language choice will be easily modified on any INET application using the language toolbar. In conclusion, the INET Internationalization application will be an integral part of nation to nation communication; the content must be accurate when desired.
Integration within applications that will utilize the technology for communication purposes must be fluid. Considering that the process of translations can be held in fold by many people, document origination and specialized tracking will need proficiency within the main task controls of the computing terminal. As a common use interface, likened to that of global search and find in its positional integrity, many facets of communication translations and subsequent reintegration deployment strategies and options will unfold within the menu entry point.
Well formed topic, sentence order and structure are necessary attributes that evoke quality for common and advanced communication. By enabling a search-able database of phrases to be made available, more precise translation and quicker effective commnication can be made through database query. As well, storing the complex process of forming of larger ideas with supporting point and conclusion structures will benefit parsing. Sentence structure and knowledge capacity can grow as a global community event.
Methods of modern software engineering have been improved through progressive integration of work flows associated with team software development. However, one of the biggest hurtles is quality analysis. Integrating a suite of object oriented testing tools that are API based, that can be utilized in polymorphism by third party tools if desired, within the development environment of the INET platform web operating system is a key goal. This will provide a quality stable environment for consumers and business that was not available before.
The development tools associated with the INET platform will incorporate all modern methods of software production and modeling. For example, source repository control, installation management, deployment, usage terms (free, licensing, rental, trial), help/support system, unit testing, and quality analysis. Within quality analysis and unit testing; major focuses are error recovery state, resource allotment tracking, code coverage, use cases (combinatorial testing), multiple user load testing, business defect detection, logic defect detection, stochastic use stability, repetition use stability, user interface standards and high load stability. Other factors such as interface usability and requirements meeting design implementation are decisions for humans but will be part of the tracking environment integrated. Defect tracking will be a standard application programming interface and designed within the interface to capture by the individual testing.
Since the INET system is encompassing of all languages through the VLISM model, the quality analysis system, help/support system, data modeling, software modeling, defect tracking, source repository control, installation management should be built so that any Integrated Development Environment developed for the INET Web OS platform will have access to these objects. That is in the creation of or use of associated assets. This major direction, typically not handled by modern vendors in a cohesive form, will benefit INET platform users because developed applications will be held in the spot light for these traits. As a result of completing these tests, applications will be more effective, robust, secure and stable for distribution and deployment.
If a study were done on all of the deployments in history of computer software, the first major issue would be meeting requirements and coming in second - bugs. Bugs are the worm of the industry. Since the INET Web OS system includes all these tools for any IDE or meta tool, employing any language, vendors will be able to make leaps and strides quickly providing the most productive environments tailored for the project type. Application stability, usability and definition is a major focus of the INET platform developer. The INET Platform will manage these aspects of software development as part of the software life cycle.
Reducing the operational attributes and language implementation of asynchronous applications by incorporating the port based model H Dispatch as a language feature will optimize threading issues on distributed applications and provide ease of use to developers. INET's Multi-core Server Model using the fiber optic bus will only be a handshake to the object oriented application architecture. This will enhance the distributed model to many forms of hardware design and provide high performance while reducing the overall message communication.
A very attractive feature of the INET Web Server Operating System is its broadcast quality output. Incorporating production studio ray tracing engines such as Indigo, PhotoRealisticRenderMan or YafRay will be effective at delivery combined with the high quality font output system. However to truly be competitive and provide a robust library to be used to encompass all visual output of the web server OS, a component needs to be built that will handle multiple rendering algorithms yet be seamless in the set of object methods it exposes for control.
Imagine the dynamic output of a program that produces a bar chart, for example. Since the image is produced from numeric computations that vary based on input, batch processing may not be effective for a quick view. Texturing, lighting, and many other characteristics of the image will be managed. Real time data calculations may affect the view as well. Therefore scan line rendering would be used in process to generate the animation. Optionally the user could wait for the highest quality output. The comparison of draft quality scan line and high quality ray trace is not effective because the quality of output depends on the description of the scene. Scan line rendering can be very effective in most cases.
The Visualization Component, the central visual brain, should be flexible enough to accept many forms of method control. In some circumstances, a direct call using an application programming interface (API library) using object oriented methods will be the input. The compiler system will adjust the parameter size definition within object output and memory allocation. This will allow scripting languages the use of INET Web APIs. And hopefully without specializing the syntax.
Programs that compose a scene graph (application or entertainment) might also incorporate the use of 2d vector graphics on any Z plane can function with high performance because of the compilation. The process will setup or use a default output pipeline and could perform image processing in layers. The image output pipeline refers to a stack of objects that are used to produce final output. The object stack method, or vector array, will transform the scene graph rendering to be formatted for a specific device. Or the pipeline may contain objects that perform contrast or sharpness filtering depending on user settings. Masking is yet another operation.
Another form of control to the Visualization Component might use an XML record set for instructions. The record set could be the output of a program yet most likely a database table. The XML schema, well defined, should be simple enough to allow users to enter the information by hand, and this only makes it easier for developers to produce the record set. This flexibility also enables the input to be a network transaction, so if animations are being downloaded from an application repository, easy compilation will be completed.
Another flexible method is pure textual input of a semantic language source file. Processing will craft image output using the object oriented rendering language. The language should include advanced cross language communication capabilities that can dynamically link to API calls for parameter input. The language should be multiple source capable to facilitate re-use of complex items. The language should be robust enough to support many drawing capabilities associated with interface rendering as well as aesthetics. Including high and low level animation commands will be an important feature. The language should include linking to the Font System language as well. Further research might identify common logic to the font rendering system. This will simplify creation of interface objects like buttons, or boxes with a plastic piece over them (Text Boxes).
All control methods of the Visualization component will need a unified model that enables polygon mesh and NURB creation to occur. Most of the time this is done in three dimensions using resolution independent floating point numbers. Some methods for building solids use primitive shapes and perform geometric transforms upon the model using methods that add or subtract other geometric forms. Yet is this the easiest way to accomplish this? Currently It is unknown. The system must be easily usable to produce interfaces and on the fly graphics. Perhaps a modeling tool that integrates with a development environment could benefit when shapes get to complex and will most likely be the ultimate choice. Yet no compromise should be made that forgoes the manual input method. The scene graph produced might link to external functions allowing variable input.
The Visualization component will have a production pipeline that supports masks, layers, image processing, bump maps, reflections, effects, and alpha channel composites. This will allow the dynamic image builds to be as effective and precise as the creator desires. Textual rendering will be an important task as the information will need to blend onto the layers where appropriate. For example, a stage light exists that projects in a forty five degree angle and its presence covers in variation about seventy five percent of the viewing area. It is a significant source of light, yet its power of illumination decreases about the last third. Text placed into this area, if textured and beveled will be effected by the source. Therefore the pipeline processing will have to compute appropriately. This is inclusive.
Yet some effects may only affect the output of a single or group of layers. So the chain or stack command order is important. Relationship of the nodes are important as well. A software developer will quickly see the object oriented development tasks here. The high definition capabilities of the INET Web Server visualization system will be the leading edge for a long time to come. The production tool set and durability of the output image file format must be effective for wide audience of developers. Glittering, sparkling, shooting stars will be available making interface assets that are dependable for years to come.
Output format and the granularity used for reducing transmission overhead will be greatly varying. The output format will change from a streaming format. The granularity of the output may also change due to bandwidth restrictions. That is, some lighting characteristics of an image, or texture maps can be extracted for later transmission. Ray tracing technology is typically used as a one stop process, By managing a scene graph with accompanying object and image data, compression of complex interface presentations can occur.
Other Facets for inclusion
Web publishing and broadcasts are an essential ingredient of user's worldly communication. Their methods set forth behaving and achieving its goal of timed captivity, appearing beautiful, spontaneous and with liquid smooth fluid motion will be enjoyed for its innate design by users. Most of all, the products will allow the customer the ability to weight and place visual information they deem important to a location at will. Useful traits will be interpreted by the targeted audience. An audience held in a subscription service or completely anonymous. By combining three dimensional organics for the eye, audio flow, emotionally suited, character mouth, face, body acting, stage dynamics with office productivity software to enable higher client interactivity, the INET platform will soften relationships with old and new clients.
The publishing system will use an object oriented implementation that enables seamless integration of assets cross office productivity tools and third party meta tools. The system will provide the necessary tools used to form layouts and utilize text easily. Spectacular presentations and multimedia experiences will be made with live data. Exploiting the three dimensional rendering capabilities of the INET Web OS Visualization system, font dynamics and animation capabilities; will enable robust learning environments as an everyday occurrence. Information frameworks that adhere to the content style will be available for staging the experience within several specific meta production tools; the new office suite. The system will support templates.
Artists of the past have used many mediums to project their imaginations. The newest realm of Computer Graphics and audio technology has begotten enormous fruits of creativity in film and the music industry. The next medium is obviously using the web as a direct presentation layer. Yet the tool workflows used to create the presentation is often not geared for the audience; artist, business analyst. or home user. They make many artists compromise visually to reach one form of their goal; hammer.
A visual artist modifies space, either 2D or 3D. Techniques, instruments and hand tools used to do this vary greatly. In the physical world, canvas, cardboard or any surface is used. Expect new methods of input technology to evolve within the technology market. The INET Gesture Recognition Hand Sculpting input system is one such research project to be used in the modeling application. Users can use their hands to modify the shape of a two dimensional or three dimensional object's features. Working with deformation and texturing tools will be operated easily within this context. Setting the strength of these tools will be best expedited using the same input method, gesture recognition.
Another input technology, the INET Multi-view Line Model Scanner, allows one to scan a cartoon figure from several poses and angles to create a three dimensional model. By matching poses to verbs defined within a skeleton, animations can be made from the plans. The system provides sensing of thickness and depth. Frame interpolation can also be set by key points for animation. The process works for both two dimensional and three dimensional models. The official terms used by animators for these processes are Tweening and Onion skinning. The technology also provides anthropomorphic limits (range of limbs, digits, torso(s), head(s) motion) based upon skeletal assignments. Properties that cause a cartoon character to exhibit intermittent and regular motion such as the chest moving during a breath can be described as well. These features will also work with two dimensional drawings as well. Motion path data can be applied to the model creating natural fluid animations. The system transforms the motion path information for three dimensional and two dimensional models. The official input format (2d/3d) is selected upon new object creation.
These input formats give artists trained in the classical arts a starting point to create and refine interactive characters or logos. The system works best with hand drawn items and not photographs. Offering known scanned angles or views of the content such as front, back, side, top and verb poses allow a more descriptive model to be created. For complex interpolation, limb and component matching can be aided by hand. The artist will locate a region and outline the shape within several of the scanned items. As well, giving that these items are most likely rough drafts, portions of recognized materials can be selected independently. That is, one might draw the individual components of a character and then piece them together. Colors can be used upon the paper to create texture colors but it is recommended that painting occur within the modeling program since lighting will be calculated. A thin black pencil or pen line drawing is preferred. The array of applications that are provided enable easy publishing of a cartoon experience. Users can scan content, type the text, arrange the models upon the stage, add acting poses and presto. The system will render an animated three dimensional film with synchronized audio speech and mouth movement.
Within the digital domain it is the monitor that becomes the palette. Coming of age in internet form, software engineers need to give artists more effective use of the screen as a canvas. They must allow this in a natural poly UI Tool. Several publishing tool formats that include text rendering, a strong emphasis on graphics painting, deploying INET Octopus Controls and INET Soft Spots will exist. These tools must provide a complete working product (viewer, data application) and provide deployment for the user.
Desktop publishing is the closest form of tool that would be appropriate to compare. Yet not exactly, as many desktop publishers do not facilitate advanced graphic editing features. But they are extremely precise in font layout options that create durable presentations. As well, many digital artists know of their capabilities and interface practices. The highest quality leading products are applications like Adobe Photoshop/Dream Weaver, Microsoft Front Page, and Swish.
Large backgrounds on web pages combined with absolute positioning is the way artists use the entire canvas in modern browsing. Addressing multiple resolutions and supporting multiple browsers becomes an issue while using this method. To really activate the screen with fluid motion a shockwave Active X COM component is used. Creating the shockwave animation does require third party tools and specialized training. In most cases a frame animation painter would be more effective.
Reducing redundant and unnecessary machine code within the CPU and binary executable can be argued as a necessity and practice. Web OOP rendering components typically use their own inner functions for fonts, textual data, graphic rendering and logic processing to achieve high speed. Font technology used for rendering very readable characters employs anti-aliasing algorithms. These technologies are complex and are not easily addressable. Most font systems used by an operating system as core technology do not allow advanced adjustments upon height, width and spacing of individual characters and strings.
Three dimensional fonts must be accomplished using third party tools. In some cases, the operating system's font system was not advanced enough to handle the total vision. These issues were solved in house by the third party software engineer. The INET Web Publishing Suite propagated into user specific tools will simplify the creation of poly layer broadcasts and bring sparkling quality to its viewers. Together, under one roof, these series of tools provide precise creation of still image, video, sound, vector animation, and text. OPP Components can also be included.
The poly UI publishing suite also includes deployment of dynamic navigation systems. To generate domain maps and document indexes is a publishing feature. Each of these items are configurable functionally, operationally and aesthetically through UI manulipation bringing good tools to users. Searching within a vertical scrolling page (host side html, pdf or open source document) or logical information domain is a component that integrates easily at the pubisher’s desire. The search can also be tailored for the specific information portal. Adding combo boxes, check boxes, and image icons to extend the search criteria. The Web OS does have a common panel for the search functionality. The search panel is integrated within the interface as the user preferences desire. That is on the page, or at the top system menu panel.
A table of contents can automatically be generated from the titles and subtitles of the included content. Formatting the table of contents can optionally include abstracts of the underlying articles accessible using mouse over. Keyboard operations also apply within this context. The advanced search panel that a publisher can place within the UI space includes the ability to show recent changes and provides on the spot navigation to it. An option of interface that shows a summary of change data is possible.
These state changes describing the information object are depicted using a magnification graph. A magnification graph is an iconic image representational of the underlying information with high contrast colors showing the differences of the recent changes. It allows the user to zoom read and navigate easily to the new edited content. It is important that web based publications of the INET Web OS platform use cohesively these features, operational components and screen real estate of the client as effectively as possible. Not providing duplicate, redundant and non-used content for web applications will simplify common user interactions. The global system search will also provide this functionality.
The magnification graph has several views that allow integration within the table of contents, summary, index and abstract publishing modules. Integration of change state information within a table of contents or index is sensed on a user or customer basis. Each customer may have read different articles and amounts of the articles. This information will affect the view.
This navigation functionality can be communicated in several ways to illustrate that modifications have occurred. The display area consumed by this functionality will change based upon functional need, location, server publishing rules, viewing browser code base, and user preferences. Supplying a re-sizable iconic window that is representative of the change states will be primarily accessed through the global search panel. Within the lines of the table of contents tree this state change information can also be communicated.
The summary or extension views are typically illustrated usually by an iconic symbol; an ellipses. The summary or extension case can be denoted in several ways using the text color, an ellipses, an iconic view window sized to the row text (portrait orientation), or a scrolling landscape oriented navigation view. Providing the functionality that reacts to mouse over events while over the polygon spot will activate a layer that provides a magnification graph. Scrolling, zooming and navigating to the changes will be easy.
An interesting aspect of these publishing tools would be that they create interfaces for broadcast rather than real-time. Management of viewing and editing privileges must be considered within this context, and in a multiuser arena. The meta office tools themselves should not create direct streams but rely on core stream publishing APIs and languages to produce the presentation assets: seminars, videos, animations, audio, application interface, database glue, starlight. Music artist's webpages will be built better to operate as music player, complete with puffy titles, electronic payment and point click stream play. The resulting presentation must allow easy viewing, listening, reading and book marking of the position. It must be done suited to the user's preferences. For the user, higher quality vector font system with magnetic magnification for easy reading. Better mouse usage when reading as a smooth page scroll (key augmentation; LR separation argument).
When an eye crosses the wonderful site of NY Company, a Fashion magazine for women's apparel the materials stand out. Photography, visual description, and classical modeling styles bring the monitor to spark with life. The process of selling and product delivery will gain much progress by using INET Technologies, held resident on the domain. Within their grasp for creative change. Each item in the picture can have a catalog window popup. Placing more efficient use of space for sales. Home shopping network really places individual items in focus for the appropriate measure of time while maintaining the super composition; lifestyle, look, attitude, matching completeness and offers interchangeable garments and accessories as side gambit.
Being able to tie items to inventory, shipping, roll out, delivery scheduling, ordering, payment, and order tracking using INET UniGlue and INET SoftSpot components gives advantage to system manageability. INET TeleSpark conversations with phone attendees to answer specific and special questions will enhance sales capacity. Lure, charm and salesmanship offer the ability to pull. Imagine one day being on the video phone with a customer selling an item. The ability to offer barter and advanced over the phone only mover specials can be made a reality.
The process of catalog building through image capture will be in the hands of the fashion maker, the photographer and the store manager; not a third part software company. The INET Professional Wireless Network Camera will allow one to tie a UPC inventory barcode control number to a picture by laser scan. With wireless upload to the server, building the store will be accomplished by linking it to the inventory control system. The INET Shopping Cart SoftSpot and Retail Catalog Explorer are excellent products.
The new era of newspaper subscription, movie ticket, coupons, concert ticket, musical entertainment, entertain mail (mailtain), and user interactivity with character placement must be easily presented to the public. INET Web OS has an integrated subscription service or click copy pay to be used by a business for the process of selling attendance seats. The INET Broadcast Content Management System will supply the appropriate function map during promotion creation to the business owner. The collection of consumer information can be likened to client relationship management (CRM) and the system also integrates payment processing. Sometimes no further information will be needed, just terminal version. The necessity of secure access rights fits within the subscription service. Validity of the attendance seat, ticket, subscription or digital data purchased by the customer can be authenticated at any time. The coupon or ticket is stored upon their device and scheduled upon their calendar.
The user must be able to maintain a concise portfolio of information they are publishing. This information will have many associated attributes that are tracked by the system and sub systems of the database operating system. In some cases an editing interface will be appropriate that is tailored for the view the customer is projecting. The ability to track differences between this live broadcast data and what actually came out of the content projection engine has a great purpose. A review of web content production engines is a good exercise for expansion. A multi-platform interface will be rendered by the publishing software.
The INET Web Server Operating System Visual Publishing Suite and database connectivity is a new orientation within information systems. Users will be able to create professional web oriented database applications that present information, collect information, allow people to view catalogs of information, perform e commerce functions, learn exciting new materials and perform statistics on gathered data.
The tight integration of web sites, personal domains and business domains will provide the ease and flexibility needed by the masses to own website domains. The functionality must include sub-domains and specialized sites the support upload to a server to broaden the accessibility of ownership. Payment, order, searching for a provider (business directory), host provider feature compare, remote server setup, matching content production to server technology, reorder expiring name, Network Solutions (name availability search), format policies, usage policies, information law requirements, whois information, search indexing, email accounts, ownership details, name server management, secure digital asset management, language translation services, banner ads, copy protection, site user management, backup and historical editing are some of the major efforts captured in API form. The API set is used in the meta tools, by the common dialog SoftSpot and by the network object system (implemented in wizard pages).
The management facilities and creation of web domains will be handled from within the networking user interface. Providing the ability to securely manage content is important. FTP is the most common method, however, there are better security models for managing files. INET will employ a model that enables this through its web publishing technology along with inclusion within the Web Sphere Explorer. The identity use and access to this information should be guarded. Where ever possible, allow generation of secure passwords (INET Knitted Pass-codes) by the computer for remote host server access security. These specialized passwords will be protected but displayable upon the user's machine only. Some systems allow multiple users to exist with less or equal rights. The system must account for backwards compatibility. That is, at some terminal they should have to access the storage without sacrificing the built security. This feature will make web publishing easier.
This open media producing system will likely develop distinct internationally aware based audiences: a user audience, a power user audience, and a developer audience. Versions of the presentation will be held within the multiple tier file system as renders are refined for the connecting devices. The INET script engine is a dynamic system that maintains a link between the binary and textual versions of the logic. Providing an interface to work directly with the binary and textual versions using API, scripts can be edited easily without syntax corruption.
Digital computing has created newer methods of entry, view, editing and testing of information in general. By upgrading input technologies and output technologies to be effective for secure web broadcast and operation, the INET platform technology will lead artists, publishers and technologists into better communication and resource management. Saving wood by decreasing use of forests; Technology and nature; the paper argument; the bandwidth argument; the CPU usage and memory argument. Blending and capturing moments of life remixed to artistically sculpt textual drama stages with realistic light and shade for digital projection will give the digital post card a new impact. Let the application festivities commence.
One part of the web server technology will be personal identity publishing. Allowing audiences to be entertained and access information about people and their friends. To make one self known. Most people on the web make an entire website for their identity or rely on an email name. The INET Web OS will provide facilities that make a tailored information portal for your public identity. One that allows creativity, configuration, and group secure access. Access can be tailored for a geographic region which will be of great benefit. From here users will be able to contact you, look at pictures of your being, watch your favorite television programs, see books that you enjoy or read articles that you have written.
The individual must be able to attain monies through the interface. Person to person finance will be available. Meet me at the coffee shop, walking map included, with ten bucks and the game DVD is yours. Selling goods, posting to classified, selling personal real estate, personal auction, new used, or looking for that special nick knack. Setup a calendar. Make or break dates. Show and track progress of education or physical training achievements. Third party add ons might be a market. Provide the efficient way to empower an individual for physical goods delivery for money making. Provide scheduling; e.g.baby sitting. Provide a community audience time for neighbors located within a geographic region. The personal web identity should also allow multiple sides of a person to be portrayed. So the audience would choose their direction of knowledge.
Broadcast Business Internet Publishing must be just as dynamic. The framework must allow a hand tailored appeal for the business and their entity desire. Accomplished by using an application that supplies artistic positioning, data catalog publishing and electronic commerce. The Office Spread sheet may do fine for small business electronic commerce. For both the personal and broadcast business publishing, an easy process will exist for placing the content online, published and commerce enabled. The process must include before web domain purchase logic for high yielding results.
Since most web sites or web applications take many days to create and are forever changing, these meta production tools must provide a method to place content along with other components of a site. Navigation is at the top of the list of things to modify when items are newly edited, the system will update the necessary site map files. Some content is dated and sorted according to a date, a common format for blog boards. These changes must affect the correct site map files. A good feature to include as it is often difficult to accomplish programmatic yet the end results are very useful, is layering information into panels. The possibilities of dynamic binding for web content are almost endless when considering page layout options and user preferences. The system and the meta production tools adhere to the INET Web Publishing standard to provide these features inherently.
Building marketing statistics capturing into the use of business published interfaces will provide necessary feedback to marketing analysts from many sources. The INET Web OS Marketing Statistics Value API is designed for integration within CRM Software. Relational database access and XML web communication of click counts, interests, product, marketing and user identity. The full cycle of Marketing Analysis does require many forms of statistics, market research databases, fulfillment processes (business intelligence) and broadcast direction within social media to operate efficiently. The INET Web OS Marketing Statistics Value API will identify these traits used by analytics to ultimately provide indirect customer satisfaction, this will close many issues of spam. It can also provide costs savings to resulting advertising.
Market value of the statistical data captured will depend on the user's desire and registration status. Some statistical information may collected may be only regional and geographically linked to product type because the user is in an anonymous identification agreement. Other statistical characteristics derived from measurement can be specific for the user at their request, and establish a private bond to current products and new products. The capability for of this statistical knowledge base can be public domain, subscription based or one time. Publishers within the INET digital domain can choose to keep the information secure within their network security. When business intelligence requires statistics to be shared freely or at payment, thereby passing information laws of user identity with non registration and registration; two cases, the API can accommodate the request. The INET Web OS Marketing Statistics Value API will attempt to balance marketing principles within Internet computing to provide effective tools for the planning of effective competition, decreasing time to market, geographic distribution capabilities including import/export, and analyze market supply demand curves.
The INET Web OS Marketing Statistics Value API will allow automation of these events within many published materials. It will not be a likely work flow ingredient of the author or report designer. The Marketing API will support developer defined statistics labeling making it a centralized repository for many types of analysis. Other newly developed and tailored enterprise systems such as inventory control management software and order fulfillment processing will require logical inclusion; e.g. track goods distribution, reception time and consumption. All business software developed for the INET platform should accommodate the technology. Greater economy greater glory.
The INET Publishing suite will promote the business usefulness and standard com-pliancy sought by law of business documents, Financial Disclosures, database records and other reports as they are labeled and managed. The INET categorization, indexing and labeling system will include flexible IT GRC (Governance, risk management, and compliance) rule based support for document, application, and field security.
The system will provide effective business to business information component linking for resellers or manufacturers. For example in Los Angeles, CA, a prime spot for the study of capitalism, some stores sell raw materials for making items. Since they specialize in one or two items, their prices are typically much better in comparison. A new business owner wants to start making pillows. Exterior cloth, buttons, zippers, filler, and ornaments must be found and gathered. The system will allow them to find the raw materials that are close in geography and view them in real size online.
Imagine a convenience store of modern day in a medium city the size of New Orleans, LA. The business owner would like to place their inventory online, sorted in categories of food type. The front page of the business contains a list of common sold items and daily specials. The menu across the top is easy to use, has large print and contains about eight categories. The user selects goods and rolls a cart through the web pages. Senior citizens can get extra help on prescriptions and get small amounts of physical assistance attaining sundries. Minimum purchase rules are different when orders contain Alcohol. Accepting cash from known customers is fine for delivery. Delivery is within a geographic area. Tips are suggested.
Business to Business connections with inventory control, and palette stacking order will be handled by INET Open Inventory Application (INET Business Component Linking; message system). Incorporating delivery scheduling and routing information with the many other facets of physical goods transfer (geographic, distance, dimension, perishable, fragile, glass, hazardous, flammable, weight centroid, age, expire, label, size, weight, color, optical recognition signatures, UPC, parent record, child record, etc.) within the context of database tracking from the product manufacturer to retailer consumption will streamline ordering more effectively. Small and large business owners will be able to carry new products easier, find out where their order is, and when it will arrive.
Provide store layouts for goods mapping in the unloading and stocking of shelves within the physical store model. Physical business functions such as sales, unloading and stocking, will provide quick publishing of items within the store's published model. This can be a hosted URL name or incorporated into the INET geographic mapping car, phone, TV, radio and computer shopping system. Consumers will be presented with a birds eye view of isles, search, sales and favorites. The INET system balances the appropriate API scope allowing connection with the many forms of Business Management Software, if the user decides to grow beyond the included management software.
Enabling digital data sharing of distributor product catalog media for web published reseller directory services will give an effective professional content to online stores. This also will minimize data entry for the small business owner by relying on the product origins; their love and spice. Delivery orders received by the small business owner can be placed for timed delivery and they may be sorted by distance.
Often in modern society, it is forgotten, the importance of teaching. In my opinion, education is the one of most valuable experiences any human can undergo. The INET Web OS Information Sage suite plans to support this lifetime endeavor using several distinct information technology applications, information systems, archival systems, publishing suites, and even embedded devices; the student eBook. The INET Web OS Information Sage intends to standardize and modernize the classroom in America and perhaps globally.
Education is a complex subject to discuss. The outcome of the events that take place are life long. Learning to read is one of the best sources of international society and human relationships. Language is the modal form of your code space, while INET technologies deliver high definition, high color and fluid frame experiences for the class room. The student eBook has significant connectivity to the teacher and the curriculum. The student eBook is designed as a learning platform only. In some cases, camera feeds to the in class network will seek to organize the classroom for more positive experiences. Providing pupil recognition for where the eye is facing will highlight alpha panels upon the teachers lecture desktop. This can control the teacher's gestures, presentation, and speaking direction to battle short attention spans.
A presentation that is fresh, has several characters, actor agents that are course and subject specific will establish lifelong idioms for many information domains. Providing growth patterns for the character can remove tension during student relocation (move to a new town). Imagine the physics professor agent establishing a slightly different character, tone and look each year you take that subject. He may age some, or require more attention and interactive classwork. This system of information unity will help with course structure giving a base information network to society.
Several education applications exist today. There are plenteous information sites available such as: Education Online, Free ed, and Berkley Education Online. Translating content sites like these to be integrated on top of the centralized format (government) recommended for the public education programs will benefit asset reuse and teaching methodology. Providing additional teacher planned lesson materials within the suggested education path is desireable. This will blend the differences using the like knowledge across the globe. People will still know different things and different levels of things but most of all people will know the main thing.
Public education must not be depleted of functionality, funds, connectivity and inventions. Therefore providing the best system of deployment means an intra network solution. The student hardware must be a durable education book with a consolidating interface. Allowing personalization with plastic coatings that extend the water proof chassis will replace book covers.
Several things can be learned from current systems that implement online education. What is of primary interest within the INET Web OS Information Sage is the target audience of the presentation. Presentations relating to school can be classified in many ways. Primarily noting the viewer to be a student, parent or teacher will affect compiled attributes of the user interface. Based upon existing content, due to technology interface gap, some items will be accessible by the parent while it is geared for the student. A specialized interface that aids the parent could be beneficial. Defining an audience target interface operation is key to content consumption. Allowing a school to take full advantage of simple interface technology will strengthen the necessary tie to technology that needs to occur. For example, requesting a second grader to download forms and print them out for their home work may be difficult. It is fundamental principle of design to affect interface. Some content packages of modern day fail to do this because of web interface technology gaps.
The viewing apparatus becomes the teaching chalkboard. There are select technologies available in modern day that will provide cost effective unit deployment. The liquid crystal display and Electronic Paper are adept for this application with supporting industry controls. Use of the entire screen area must be well planned.
The teacher's ability to solicit information will be very direct. Dial a student and expect attention from the student. One can assume that the information will be best suited bare, that is, in easy consumable form. Courses must be designed to reach out. An operating context that is self paced with review functionality is an important program operation. The student should be able to just view the lesson without interaction. Upon these terminals, logging the terminal use and timing information may support tuning the experience for effectiveness.
Curriculum management through guideline structure leads the great task of unity in subject traits and education weights. Students often complain of teacher relationships and their position of freedom within the context of education. This position and interpretation will vary based upon the academic model that they execute daily. Public school, private school, religious school, private funded education, and home school are the modern forms. There are many different structures world wide, yet most funding for the global educational system comes from a centralized source like taxation; a government source. The course structure set, because it is distributed across many people and great distances, is left to localized implementers. Improvement will come by redirecting these resources to be more productive at information dissemination using a series of tools for delivery, reference and assessment.
Allowing a growing organism complete freedom of movement never establishes a forward momentum that causes change. Stimuli is needed for genetic calculations to perform mutation functions. An unchallenged organism becomes sedentary and takes the easy route offered. The structure of modern schools in America, provides several levels of education types for a subject. The divisions of education quality does vary by instructor. If modern computing methods were implemented using a fragmentary project plan, the adoptation would be easier due to experiences gained.
The explanatory segments of classroom teaching are what impact students first. Major trunks of information achieve cognitive penetration during this discussion layer, a presentation. These are the best segments that impale memory because they are structured in logical steps; even more evident within the sciences. Concise supporting points of view that elevate the major thought process must be viewed written or projected statically while this discussion occurs. Making use of the hypersensitive time embeds the learned material with analytics for later honing. The progress must be measured and recorded for each student. Because teaching materials will be designed as a centralized data source, the progress of information and student learning will be more accurately tracked.
For a transport of the learning experience, it is presumed that a three dimensional experience would be best. But a research direction has to be information asset based first to achieve measured results with existing technology paths. The environment of the teaching stage can be captured to include the entire environment barring no sensor input. This will allow graceful and natural connectivity with the assets during CAI course production (publishing). Because the data is captured in a flexible format including the related media, lecture video segments, agent actor, text, models, simulations, classwork, video, home work, and quizzes; translation of the information to a consolidating user interface will simplify use. Maintaining a state relationship between the classroom mode and homework mode will be essential to providing a fluid learning experience.
The homework mode will providing easy connectivity with student identification and context to a pool of teacher's assistants. Modern forms such as Home Work NYC work towards a solution, however INET will provide an integrated solution. This will compensate directly where more explanation is required during the younger years. The INET technology interface will succeed in providing interfaces to the youngest generation of learners without parental involvement. This business hurdle makes the technology more accessible and self paced for students because scheduling tutoring time while after the work day is difficult for many parents. Parents at most times expect their children to do their school work. The stage is set to make the time when students are during their school work or home work more productive. When parents want more involvement with their children's work, they can monitor progress in their own interface. A desktop to provide one on one coaching for lesson plans and checking their loved one's work. Contextual linking of lessons, related information and additional information will ease the student and parental interaction.
Because the educational materials captured are the valuable asset, storing the information in an open format will preserve the investment. The INET system will also include translation and transfer functions to update existing educational information portals adhering to the academic label. The format of the materials captured must be able to be recompiled again, edited and maintained to be refined each season. New paths of explanation and lesson routes is definable within the information network. The INET Web OS provides a base API that lends to publication of academic materials, an entity promoting standardization while leveraging visualization technologies. Within the domain specifically, a set exists to evaluate each of the major academic projection needs. The secure testing credentials and data object archival provides excellent record keeping opportunities for additional course software.
Content production within modern facilities that visualize tutor or learning environments usually depend on external asset editors. Especially web based repositories. Movies, Videos, Diagrams, Images, and Simulations are stationary objects to be incorporated with textual information. This application work division comes through technology development methodology. The INET Information Sage suite directly produces these items with the character of a structured learning user interface. After information encapsulation and render occur, the layout of the information is the important factor. The generalized layout manager supports format and positioning of information within a flowing pattern. Complexities that are solved within the layout manager rely upon total length of the expanded content. Layout templates defined to be visually prioritized for learning and that dynamically conform over a series of staged, populated layouts will publish the information to the student. Web technologies are well suited and are refined using binary contexts within INET Information Sage.
The academic content production engine performs its image and animation functions using the visualization system. The access level of the engine is tailored for types of presentation segments that occur during lessons. Making rhetoric of simple animations that normally occur during an algebra lesson, for example, when variables are factored is easily accomplished using the layout animation compiler. Utilizing common idioms that are configurable such as a black board user interfaces are included. The academic content production engine stores these templates and visual property hierarchy object chains within a data object, X3D. Several segment types that propose new detailed insights into a linked main information trunk can be chained together to create a animated, magnetic, morphing, and magnifying experience. It is known the step and stages during each segment as an academic information object. Architecturally these object conform to a standardized OPP interface so new production schema can be created by the market. Properties of this information object is used to create the navigation system.
Navigation systems are rendered for the appropriate target audience and allow configuration. Some experiences within course material are better experienced in a timed, sequential order. This is true of a physical classroom environment. No one really controls the first grade teacher, they are speaking and the information is given. Likewise, some content and course materials will have a similar automatic consumpation interface. The interface that exists within a television can be compared to that of teaching, it is a focus, a volume adjustment, and an attention tune. The content production engine will support information flow chains that are conducive with the practices of public education. The advancements within computer logic can also allow periods of simulation, testing, and review during a lesson plan. Computing presentations within a classroom can be controlled by the teacher during a lecture to provide maximum effectiveness. Supporting the natural tablet interface of writing mathematics during an algebra exam is a target feature. Supporting the arts, and writing expression is also conducive to the academic content production engine.
A user’s personal information and location must be only given or revealed during the appropriate circumstances. Several methods of obtaining this information exists today that many users are unaware of. Even consider the manufacturer of the device and the software engineers new to some of the entry points. Hackers are always comming up with new methods; that is their job. Crimes varying in many forms of severity and dysfunction arise due to the tracking technique. Yet an identity must exist and will for all digital data. Therefore identifying, tracking and controlling the release of primary and secondary forms (deductive) of identity must be protected. Identity in this context has several facets of purposeful meaning. Including attributes such as three dimensional position or the attributes of an individuals life can seem difficult to compute or process. Keeping safe their known paths of travel is important. Their vehicle, color make, model, license tag number, VIN, and operational necessities of the automobile's up keep and input are very important facets of a human's persistence to track. As well, regard the ever lasting characteristics of the user's self: their physical appearance, their life endeavors, their material possessions and their consumer desires,
In modern headlines, Geotagging, a feature that captures location information and automatically attaches the coordinates to the resulting digital data, can be used to easily reveal the location a photograph was taken from. Summarizing and cross indexing the file attributes and image data with human perception may reveal contexts of your being. Quickly making a judgment call to turn off such functions does indeed solve these issues. In its same form, it decreases cataloging and mapping features available to server technology. These are valuable features needed for an appropriate target audience. The INET system will provide a lock safe system to accessing and retransmitting this important feature information.
Other aspects of personal identity information can be haphazardly released due to the security level of a channel during a textual writing session. Text entry is a basic function that is used in chat rooms, cell phone texting, email, and database collaboration applications. Example, tell of your geographic location and time schedule on FaceBook; the open air. Social networking, a term known to spark recognition of a purposeful role in broadband media, must be monitored yet not hampered. Entry, collection of the data to transmit, viewing, searching and summary are the primary data functions of such systems. The intent of these database systems should not be deluded.
By using simple deduction, a burglar can be armed with a time table of when you are away and at your residence, office or automobile. However, this does not make social networking sites themselves an insecure medium in its functional implementation. It is the user's decision to release private information (named or deductive) that is the security problem. They may do this accidentally without thinking, but the problem is there. The INET Web OS system will monitor for such information using advanced parsing, database, and artificial intelligence to warn the user when this occurs. As well it must do so for the appropriate people you are chatting with. Therefore the system will ascertain the transmission audience. The INET Web OS will provide blended digital censorship on all forms of transmission media where re-servicing content is necessary. Example, the user does not want any pictures of their face, home or automobile online.
The INET Web OS platform will spend processing time to warn the user when scenarios of this nature are occurring. As well, the multiplex query and update of many information services that are used to access the Internet will be a propelling effort. Links to all search engines world wide will be used to reform the underlying digital data to the necessary content specification. The necessary content specification is derived and activated by information law enforcement. Privatized services providing authenticated and investigative partnerships, may exist for certain kinds of data. Users may wish to cultivate their tarnished identity projections to a more beneficial reflection using a fee based service. Some rules noted by information law that appropriate direct modification of digital data may not be precise enough to warrant the needed inspection requested by a user. A user gets too many emails and would like the situation examined. A couple from Paris, France came over and snapped a shot of you wearing an awful outfit. The system will remove your persona from the image, modify the likeness or modify specific attributes such as clothing. Providing searching that is artificially intelligent and tuned to the likeness of a user will be a complex server task.
The INET Web OS System will impound data created by a user or program that lead to unwanted illumination by encapsulating the functionality into the INET Collaboration API and interface objects. This will occur for every INET User automatically for all of their devices. By providing functionality and status links contextually based upon rules of the conversation, the high performance common use editing objects will succeed modern information technology security concepts. The system will provide this functionality before transmission to a broadcast situation thus retaining the highest form of identity concealment. Implementation of such functionality will operate both upon server and client logic bases to supply a robust, intelligent and efficient data gathering interface; the entire capturing process. Including quick link INET SoftSpot components to process photography, audio, music clips, three dimensional video and INET 3D Fonts will ease professional productivity for many users of social networking. Authenticity of the multiple connecting persona is a concrete requirement. And if they are anonymous, the state must be known.
The INET Web OS platform is designed to be cooperative with official investigative units such as the Cybercrime divisions of the American FBI, Interpol and other world authoritative bodies. The INET Web OS manufacturer proves this by releasing the encryption methods and storage access facilities with a supreme privilege access suite (INET SPAS). A distinctly unique hardware and software setup requiring guards and restricted area protocol to fulfill the global information law certification. In striving countries, a known level of censorship and protection will be advertised that describe an agency's proficiency and operating attributes. A trust worthy relationship and team model should exist in any country the system is distributed. The system will also consider that information publication resulting from a catastrophic nature must not be thwarted by inherent need. The meta tools provide the team of investigators an information access architecture that is identifiable by Law.
Using the United States code of search and seizure, users will know when they are being scanned. The design of such features will need further refinement during design, yet make undeniable sense to include for most people. That is, most people do not intend to use a computer for crime. Providing the opportunity for one to protect themselves from infringement is cooperative with platform design. Data can be erased to a certified level that is not congruent with modern emergency retrieval methods (Data erasure).
The historical tree describing a digital data object for INET Web OS clients contain tracking information. The tree traversal logic during the secure erase procedure will include branching if the object is a source data object. This will include if the digital data object was copied to another location, USB drive for example, or sent within an email as an attachment, the historical information along with logical actions will be readily available. Including cut and paste features within this context will be difficult yet not impossible. Confirmation will also delete the historical records. All INET Web OS clients will track the copy and erasure of a file's location, propagating the results back to the logical source. Therefore tracking will also include ownership rights. Tracking the individual copy and transfer of digital data object sub components during editing, user interface logic, provides an intended perfect history tree for analysis during data sanitation action. Software emulating this control upon third party operating systems is a desire.
The INET Information Integrity Portal (IIP) platform feature is designed to steer and warn users of inappropriate behaviour during communication and use. The assimilation of IIP will encompass a broad range of operating system architectures, making it a system wide feature. Modern operating systems employ such technologies as add on features making them outside the designed security protocol. Breeding upon a new base operating system architecture, the integration points of IIP will be inspected to decrease inherent security risks.
Information that is gathered and stored about the home automation system must be secure. As well, provide limited access to the automation functions these devices provide is a must. Environmental Sensors used by home automation and robotic systems must be held in private. A score of environmental sensors may be installed within a home setup. Releasing interior images captured by these sensors should be to specific parties only. Securing the Robotic Path Log for tamper proof is necessary for future investigations. It must be known if a robot was programmed to destroy and by who.
The ubiquitous implementation effects of IIP is broad. Including interface control objects, information search and retrieval functions (remote and local) and backwards compatibility support for older application frameworks is a large umbrella. Older framework support will make Internet technology developed with HTML forms more secure. The system will provide automatic recognition of high security fields such as name, home address, business address, phone number, SSN and credit card. The system will use secure interface controls instead of relaxed, nonadhesive controls. In places where the automatic recognition is circumvented, the transmission security portion will monitor. Most users do not intend to commit crimes while they are using computing terminals. However, without safeguards in place, the ability for a modern terminal to be used in crime has a lot to do with the authenticity of the running software. An open space to roam has no boundaries.
Personal finance requiring identity can be linked cohesively within the user interface and provide matching for known users defined within the user bank of the Web OS. Scenarios requiring alternate names can be handled discretely by policies set by the terminal coordinator. Example, if the terminal is used for business, only company cards can be used in financial transactions. In some cases, this can increase the productivity of employees, however, the main task of the feature will be monitoring financial transactions upon a business owned network. Some system plans may block the use of the computer terminal from financial transactions completely. Terminals that have the capability turned on could be monitored specifically (live recorded video) to track the possibility of fraud by an institution. If the identity is foreign to a terminal and it used on a home machine or in a purely consumer fashion, important considerations for the behaviour of the user interface will percolate. If security checks pass, erasure of all foreign identity information will be accomplished. E.g. You do not want your friend to keep your credit card number on file just because you used their terminal for a purchase. However, recording an event within the transaction database of the event will be useful during investigation.
Because of the way INET compatible embedded computing devices work; they will be located easily within the domain of a geographic area of any place in the world due to network operating procedures. Remember that user data is stored in a mainframe computer or one located at their chosen establishment. Many people have issues with many things in the electronic data world. However that group of people is very small when compared to those who use computing devices for their intended purpose. Some people are not afraid of giving the Federal Government access to their digital information because they have nothing to hide. Some people see encryption as a toy when it is disruptive to standard practices. Encryption does have a legitimate place. Developers create these information systems to hide secure information. Open communication is the sure path for public domain agreements. Most of the time stenography does go unnoticed, the point of it. Stenography features of computing are used by criminals for many illegal purposes. It is my opinion, that man made systems work best if agreements between the info structure and the consumer are made in cooperation with telecommunication and digital data laws. The INET WebServer Operating System will provide the necessary agencies with stream formats for their investigative use.
The traffic system that works most of the time in the world is easy to understand. If people did not obey the traffic signals, havoc would be in place. No one would get anywhere quickly and there would be too many wrecks to deal with. This analogy might seem superfluous to the naked eye, yet imagine trying to impose a set of rules against people who want to break the digital data agreements. Currently there are so many crimes that go unpunished on the Internet that more consumer cooperation is needed to catch terrorists and hard core criminals. I explore the fact that many will adopt this system of operation simply because they want security on their digital data. Privacy is assured within the confines of the search and seizure laws; that is the authorities must provide physical contact first before scanning the data just like when they come and take a laptop or a desktop computer from your home or person. The system might integrate nicely with Dunn and Bradstreet as an indicator for business and optionally for personal accreditation.
The best way to protect your data assets are by using a cheaper device for remote connectivity. The LCD and electronic technology that Japan can manufacture is beneficial in many ways to cost effectiveness. Incorporating the INET network technologies within the device itself allows greater distribution within many different devices. Thus offloading main computing tasks to a host mainframe computing device. Nevertheless, one of the many benefits are tracking of the device.
For example, the Traceroute command will shows all of the network routers that are used to retrieve the information. Network routers are located through out the entire united states and globe that can be identified. Most of the major information is collected into URL names. This information has to be known about so that a quality telecommunication conversation can take place. It is unknown at this point with wireless router technology increasing in distance if the signal strength can also help to identify a tighter spherical region. In short, location at the physical network layer (the L1 layer) is essential.
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There are some developers that work diligently to undermine communication tasks of web servers by flooding a target web-server with invalid page requests. Use of an INET Web OS terminal for such purposes will be monitored and restricted. There is a difference in use; software development requires this during a testing duty cycle and sometimes this may be necessary for large scale promotions. Home users most likely to not require such powers. As well, there are software methods that commit true communication crime on boundless systems. Moving the operation of high volume digital data flooding to be an electrical engineering task separate from the INET Platform will further insure the device's compliance within information law making it a friendly tool. Ensuring the bounds of the device to be a non military computing grade platform through common sense restriction (hardware and software) will specialize methods of formal communication disruption (Cyber warfare). A warning to restrict the terminal's use to send a large amount of information to an array of foreign servers is a necessary monitor also. A movie publisher may do this. But most likely, a home user would not do this. Recording these events into a database will be important to information investigation.
SPAM results from the desire to advertise in a high volume form upon the Internet medium. Given an array of email recipients, information can be duplicated and sent automatically to each address. However, there is a difference between using communication for the right reasons and the wrong reasons. Ultimately such endeavours can lead the recipients to inarticulate and unethical business experiences and practices. The INET terminal will limit logically the use of such technology features. The INET Web OS will be integrated with a database of known Internet scams to filter electronic mail. This database, a repository that is regulated based upon the standards of information law, will contain many definitions that spawn user interface variations upon the client device. Identifying known sensitive web pages, illegal content, information scams, security leaks, and other Cybercrime related issues; the system will house industry knowledge. The INET Email system will catalog information known to be typed by hand verses a generated message. The mimic of such instrumentation record is a security risk to inspect.
Some usage laws of copyrighted materials may change to be more accurate with the intentions of the medium, the publisher and the maker. Specifically within the music industry, if a new song has a great composition that listeners like, the song can be recommended by people easily; making them a personal coordinator of music. Simply click and send the song to a friend. The INET Web OS will identify the song as an owned copyrighted material and pass this information along to the other user. Recording the efforts of a personal coordinator can also show returns. Integrating a reward system with complex media publishing is a healthy boon that relates the financial cycle to marketing practices. The user will not receive infinite play rights of the audio file. This feature actually works in favor of advertising, eventually making the user buy the song to listen further. By managing the link, with quality, number of playbacks and frequency of use, the implementation reduces illegal use of content while not damaging the consumer relationship. The software rules of temporary license may vary based upon the medium and the product specifics. Some digital data objects may not allow any transfer or sample at all.
Businesses that own networks of computing terminals must be able to effectively monitor and administer the Web OS IIP feature. Monitoring the use of computing time for personal verses business time processing will give information auditors the much needed statistics during the calculation of profit margin. Monitoring all communication to be fluid within a specific style of business conversation is very important to retaining the social identity of a business. Two people may use an unofficial friendly tone during an email. The email also contains a payload of valuable concepts. During formal review, the friendly conversation attributes would be deemed inappropriate and most likely an embarrassment to the open party. The INET Web OS system will be a good business partner by warning the employee of the undesirable clutter during editing and before transmission.
Other aspects of a business's persona and their practice within the global information consortium may require specific rules of conduct to be defined. Rules of conduct can apply to legal terms, specialized medical formats, formal business functions, or even company management desires. Functionality for these standards of practice will include their necessary page layout. A header and footer may be required before transmission and should be incorporated within the editing interface for preview. Some companies use logos and business signatures upon communication as a standard. The rule based engine will incorporate document template formatting. Providing an in-line retrieval of the interface standard to match the document transmission can be accomplished several ways in user interface mechanics. Selection lists, or context sensitive keyword built within the compose portion of the email system can be a user friendly feature.
Providing dynamic parse data rules for information sanitation that relate to business intelligence will reduce security leaks. A corporation has a custom inventory database. There are two columns within that define price. One price is wholesale while the other is a consumer grade price. Passing incorrect price quotes is inconsistent with the company's sales procedure. Before transmission, and during editing, sensing this information through cross reference, drag drop functionality or paste functionality is very important to the security of a business. Another type of rule can be defined that distinguishes access privilege by the communication recipients. That is some people may not be privy to a database report.
Building a linked system to the company's business persona (projection) can remove imprecision during critical thinking time by its customers. Business and analysts are invited to create an information standard platform of their information systems and business knowledge. The conclusion that these rules must be manageable by a business must not impede the flexibility of the system and the user interface. The rule database will also be the subject target of hackers and must be a secure access information store. System functionality for business and consumer processing must include tracking compliance within the Sarbanes-Oxley Act SOX (American). Modern systems of this nature are identified as Enterprise Content Management and are facilitated as the server based processing components.
Providing an IIP dialect, that is packaged as a rule database along with any other of its dependencies, can be a prefabricated intelligence system created by industry experts. This information package is identifiable as a system administration choice and as a security entry point. The system is object oriented in nature providing for the feature override and inheritance of rules within its searching algorithms. The capabilities of software installation and use control the searching context within the rules of conduct. Software installation can create new rules of interactivity and use guidelines for the application and operating system use. A common distribution combination will be with INET User Sphere (desktop or workspace) deployment. Users may wish to refine some information standards for their home policies. Transfer or retransmission of a user's desktop operation (remote access) to a pubic terminal using a password key must inherit the rules of conduct the terminal publishes. Entry of this information can provided based upon varying levels of scope. Users may wish to limit the search and retrieval of entire noun and synonym domains. Or limit access to a specific list of web addresses. These can be linked to system wide use, a formal user profile or user group profile. Common dialects will be included with the INET Web OS that portray an equal division of use properties; public terminal use only, safe Internet filtering, business communication, personal communication, age group communication, game top and educational communication.
The monitor of these events (rules of conduct) and their consequence upon the user interface will vary greatly. In some scenarios, blocking operations and functionality all together while in others provide a warning with links to legal ease. Censorship contexts may be defined consisting of textual properties, image analysis, and audio analysis. Information views of digital data objects will be censored of the inadvisable components. As well, the system will allow hand modified censorship digital replacements to be used in-place if the digital data objects are authentic. For example, to filter professionally an audio source of slang can function within the artistic range.
Specific use of hardware and its functional operation can be affected by these rules. For example, blocking all audio playback, recording of audio, picture taking or viewing video content is relevant to some system administrators. Letting audio and video be streamed only from named resources is another instance. The granular control over hardware and information censorship will be one of fine grain to allow complete description and optimization of the desires of the host computing resource. Useful and feature filled experiences during terminal use can also be more secure than modern operating system use.
Rules of conduct as implemented in IIP will indeed brighten culture barriers. Softening the rights of access to offensive material, user tolerances can be defined to reduce the emotional impact. Rule definition can be based upon gender, age and user preferences. The use of the intended media broadcast attribute tags will be a primary source of search parameter query. For example, these tags can be used during search of the rules of conduct to provide copy protection of textual data. Authentication of these tags and categorization of other attributes within the digital data object will be tracked and verified. Providing records of modification within the historical tree of the digital data object will include these tags. These rules of conduct are extremely flexible in their interpretation characteristics. They provide a syntax for Boolean logic operations that refine the formation of inclusion set and exclusionary set information relationships.
Providing the necessary format for common business operations must not impede business productivity. The target goal of using an IIP dialect should improve business performance. The many resulting facets of digital communication can be difficult to measure, yet must be accountable on the bottom line. Providing IIP dialects for small businesses will be specialized. For example, an IIP dialect will exist for a restaurant, a small store, or an medical facility. Each dialect will start implementation use void of any user input. It is expected that the individuals heavily modify and enhance the rules of digital data conduct. Yet, giving a template that is a starter kit will help with deployment. This does not detract from the completeness of the dialect however, a fully puffed model. Even a specialized consultant position will spring into existence requiring legal finesse as well as knowledge of the INET Information Integrity Portal (IIP) platform component.
Providing a safety-net for unsuspecting users is very important because the crimes that result are important legal issues. However, most judges are shrewd enough to determine if a Cybercrime is professional and intentional. The INET Web OS Information Integrity Portal (IIP) is designed to prevent unintentional crimes while controlling the access to intentional crime paths. IIP is also designed to censor communication information and access privileges. The system provides a highly granular filter that restricts the use of inappropriate language and imagery. Nevertheless, the image filter is not fault tolerant as some forms of work can be manipulated to pass through. With an on board info-structure in place to handle Cybercrime and the investigation of such crimes, resolution and new searching techniques will be a viable partnership to explore with the appropriate information specialists. In conclusion, the INET Web OS will provide an interface for publishing data that allows control over user identity reflections when necessary to protect users from Cybercrime, crime planning and inappropriate content.
Printing full page documents will be a thing of the past. However difficult to overcome is the simplicity of walking up face to face to a friend, stranger or coworker and handing them a slip of computer printout. Email is the typical interoffice medium. The INET terminal and operating system will introduce the use of location wafers. A location wafer is a small slip of disposable and recyclable paper that has an URL encoded within a small space. The location wafer can point to any digital resource INET Web Servers disseminate.
The location wafer will be read quickly and accurately by the location wafer lens; perhaps a bar code reader. It is not known at this time what sensor configuration will be the most cost effective and within the realm of hardware user interface requirements. It is suggested that the optic medium be used, preferring infra red. Two dimensional barcodes seem to be the most viable choice.
The location wafer as a means of advertising will allow inexpensive distribution of full motion video, applications, music and other materials to consumers. A location wafer could point to a secure location that must be released to a named party. Example, a new client is registering at the library for a new membership card and the form needs to be filled out. The location wafer can be integrated with the product being sold; a cup or candy wrapper for example. Printing these items for distribution on a standard 8x11 paper must not be a foreign task either. This gives optimum redirection and cost effective advertising capabilities to the seller. Even providing a lottery of sorts would be a fanciful game to play. In short, it can be a new feel kiss on the lips from the lady of your dreams, the new song from the metal band, a newspaper or the business card from the billionaire.
Optical character recognition is a field of computer science that is well established. Typically there are two distinct groups of recognition that categorize algorithm cplexity and algorithm accuracy. Typeset and hand written, hand written being the most difficult because of the variance. It will be included with the OCR algorithm package as it is necessary for the complete model.
OCR and its integration with operating systems is typically that of a specialized application. The process of OCR takes on a task centric focus which for some very useful needs detracts from the technology. Some systems require image input and rely on external programs to do the scanner device reading and image storage. A typical OCR application will produce standard text files after recognition and then the user can edit the information with another program. The entire process requires three or four distinct operations making OCR difficult for data entry purposes.
The INET Web OS model plans on including OCR as a means of data entry for applications. Imagine the system of shipping and receiving, a physical and electronic domain. Orders are placed onto trucks where they are driven to customers. When it arrives, the business owner signs the receivables slip after careful examination; a piece of paper.
The customer must then update their inventory system to match the order exactly. If they differ, a hand written number, note or scratch off may be there. With the INET Web OS, shipping slips can be used as a direct interface of data entry for the inventory system or what ever application might be in place. The INET Web OS OCR model provides facilities to set repetitious and multiple segment entry based upon page layout and row/column arrangements; automatic iteration.
The integration of OCR as a data entry facility must not be cumbersome nor intrusive for the single time use, the multiple field dialog or the long term repetitious (also sparse) usage. For the single field, a preview image temporarily overlays the user interface allowing the user to draw a rectangular area selection of the needed contents. Row by row iteration allows columns to be set for each instance. Upon confirmation, the next row is entered into a new dialog. In other circumstances, document layouts that span a page require field to area mapping. Page by page confirmation will allow a good entry flow for users. The system also provides for cases where two or more pages are used to collate entry of information.
The memory of the document layout, row and column assignments are contextually tied to the data entry screen, Invoking the memory map, if desired by the user, is accomplished by using quick access buttons upon the countertop. The user clicks the button and an image overlays the viewing area denoting the mapped field information. If minor space adjustments need to be made, the keyboard and mouse can relate the map more precisely. As well, intelligent location assessment can be an automatic operation. Its adjustment of the individual field mapping, row, column and page document field mapping positions are facilitated by previous use data and recognition of white space that is typical of such paper reports.
Document field mapping can also be set by parsing the data after recognition has taken place. Such variable document formats are present in American State Identifications (bar code information). In this case, the user can use field description keywords, assign logical pixel space and detect upon a maximum ASCII text length. A scripting interface is also present for advanced users to provide logic for parsing, translation and regrouping.
OCR on the INET Web OS will allow creation of eBooks that are stored within the user’s electronic library easier. The creation of eBooks allows line drawings, illustrations and photographs to be stored accurately. As an integrated task, users can enjoy books from any location without the need to carry the heavy weight of a paper book or hard back. Creating an eBook does require that the user own a copy unless it is considered public domain. The digital media rights management system will provide the necessary links to publishers to ensure copyright infringements are not grossly violated. Optionally the user can buy the rights to store a book electronically. A service that will be integrated with the digital media rights management facilities and the publishing house. The funds will be processed for the author as they should be.
Optical character recognition during the process of the Hidden Markov algorithm develops a fuzzy numeric that represents the probable character (task’s) accuracy. This information is important to ensure the integrity and accuracy of the translation. It may be reflected within the user interface using textual color. Moving the text caret over a word and pressing a system hot key presents a percentage graph with an alternatives list. Moving the mouse over the word produces an equivalent functionality. Lighter colors reflect probable in accurate matches in character or word. This is especially important in handwriting where recognition errors are more likely. INET Textual fields have spell checking as an intrinsic feature and this does aid in the process of OCR (alternatives list). Other special purpose entry components such as date, numeric and financial amounts rely upon internal self checking format verifications for entry.
It may be favorable to have the output of optical character recognition be transferable automatically to an associated application upon scanning. The INET Web OS system includes contextually based cataloging of pertinent information using selected text (INET Wiggle) as the main entry point. For example, the contextually based cataloging process will show a list of applications that store names and addresses; contacts when a name and address are Wiggled within the web browser. Some books that are image only such as common format for public domain materials would be well suited to have definition appear. It is desirable to have OCR function within this capacity, yet structuring the presentation interface will be different.
Consider the times when needs of this nature may occur; drop some notes off at your desk or home desk. It is even seen to have an INET Robot Paper mate that will handle the chore of placing it for scan. Most of the time, while scanning multiple pocket items, the slips of paper will be related. A stack of business cards for example. The cards or note slips can be placed spread in oddly rotated positions. The system will offer a stream line process to scan items in batch as well as a list of appropriate target applications. Upon the list, the Note Taker, and Formula calculator should be readily available.
As a stand up and walk away feature, the system will make use of the response time window effectively. If no items are selected, that is the person just dropped the items off at the basket, the default input application will be selected at a specified time expiration. Grouping the items within one entry segment, perhaps cataloged within the calendar by time of entry will be beneficial for access. Since the task was communicated to the device in a non interactive format, the processing status results will be iconic. A basket of chores the computer has accomplished while you were away would be appropriate.
Using a live video feed from a camera is an extravagant feature to research. The most likely target use will be still frame photograph oriented but not exclude video stream. Imagine going around the town with a camera, video camera rolling. There are lots of words, phrases, pictographs, and ideograms that can be mapped using OCR. In the scene, these items will be cluttered by the common masks of the environment. The best practice will allow complete processing of the entire clip(s) as an offline batch process. The algorithm will relate the textual data within the video clip file. The textual data will be linked to the frame by the bounding polygon coordinates.
It might be pleasurable to search this data by text keyword to find film segments that possess the text: Street or restaurant name for example. If the integrated map system supports a spell checking search, the words, store names, and street names can be corrected after the formal OCR process. Using the Geo-tag information will be important to localizing the spell check domain. As well, many street names are fictitious and are not official dictionary words. Providing an interface of the data as a spell check extension dictionary will require some modifications by the map system provider.
Providing the capability of searching multiple video clips as a single search domain will strengthen the server features. Several people may wish to tie several videos together that are in a general area. The use of Geo-tagging will be advantageous for cataloging in this circumstance. As well, the technology does not have to be public domain access to be used. The Optical character recognition will be integrated with the cataloging operations of an individual's home or a private system. This will allow private use of Geo-tags that are not broadcast within the public eye as a protection of personal identity. Optical character recognition from a binocular stereo camera will also function within this capacity as the algorithm accepts three dimensional image formats.
The INET Web OS document management system will also offer the use of location wafers that link to online sources of the information, an option upon the printed material or separate card. In both cases, data entry will be managed effectively for the client as an integrated user interface operation. In conclusion, the interface for OCR as an integrated data entry component within user interface spaces will increase productivity and accuracy for many computer users world wide. The user will have to have a scanner.
The ability to create database connections, manage databases, transfer databases, translate databases, pass database tables through email links, and allow multi-user data entry is a focus of the database storage mechanism within the INET Web Server Operating System. As many developers are acquainted with database management, in short it can be a complex subject. There are many characteristics relational, relational object databases and indexed binary data blob files include. Some examples are field data type, precision, keys, server stored procedures, SQL and relational design specifications. The INET Web OS will deliver the first language tight Data Object APIs that are syntactically coherent. As well in application form: database management, database transfer, database translation, database entry, and data reporting.
Quick data access to data storage at the base VLISM layer will supply pre-calculated location values matched for index. The beneficial speed gained in interface population is solved within INET application architecture by the inclusion of index cache to disk cache algorithms. The system balances search indexes on client index memory and host index memory to the numeric values representing absolute disk storage location. The retrieval will be one of the fastest on the market; a driver pass. All of the members may be present upon the dialog within the data set; disk cluster. The database system will allow connectionless editing of database entries for times when no internet connection is available.
Matching field names to byte locations within the stream while allowing versioned type safe or binary storage within the allotment provides quicker reaction of visual changes. The assumption that most data existing on disk must logically be considered to be impressed within the magnetic technology for a long consumable period unchanged allows this access method to be first priority.
Browsing data on the INET platform in raw state will be easier. Consider for example the generations of Microsoft Internet Explorer. First being a web browser and then becoming a main user interface ingredient of the file system browser. With a web browser's ability to place items into columns, change fonts and display images; it becomes a screen layout utility. Like so, the INET Web OS (User Sphere) will provide this interface connectivity and allow flow and interaction of information easily including databases. The logic and program architecture will not interfere with a developer's ability to glue these nicely designed data viewers and editors together to form a package. The INET Web OS application framework (UniGlue) will include data and logic sharing that further blurs the user's portal to concise information.
Users when preparing live data publications or seminars for web publishing must be able to include database links within their project. The ability to present a User Interface grid for data entry must be a quick process. Consider for example this use case scenario; the manager of operations at the shipping department of an ink manufacturer needs the customer information to place on labels for packaging. The sticker will go on the outside of the barrel and of course they must be accurate. The manager must make a database table containing Ink Color Batch Name, Customer Name, Street Address 1, Street Address 2, City, State, and Zip code. The customer, whom the plant made the ink for, must decide what ink goes to which address. There are two hundred thirty fifty gallon barrels of Ink total to ship, including finishing varnishes.
Creating a database table must be quite easy, entering a name and data type. The manager will enter all of the ink color batch names first into the database table. It is an import from a COBOL program. This field will not be available for modification by the customer, so user rights must be authenticated properly. However it will still display. Do not forget the end goal: to allow the customer to easily decide where barrels of ink are going. So the database table is made. The manager has two options at this point: send an email that has a database table user interface link or allow the customer to sign on to the web publication for entry. Consider that the email link is an anonymous authentication while the web publication has defined credentials.
The customer gets the email containing the database table link. The customer has a spreadsheet containing all of the addresses of plants that ordered. Almost all ordered red Ink, seventy five percent ordered blue Ink, all order varnish and there are some odd balls. Using a drag and drop interface for entry, sorting, multiple selection and minor amounts of data entry, the task is complete. The customer clicks the done button and the plant manager is notified. So for the end user, the database publishing/entry system must be well defined and easy to use yet robust in implementation. The system must account for multiple users, database field types, data translation, import/export functions, grid entry and guided user interface. Import and export functions should be extensible as they will be downloaded and compiled by the client machine depending on the criteria. And do not forget that the customer actually goes back once to the email and makes a correction, clicking the done button should not cause confusion to the manager; just highlight the changes that were made.
Data format and symbolic name recognition is a leap ahead from the drag and drop method of import. It is a system with a light parsing engine that will recognize similarity in field names of the source and target and provide matches. This will be enabled in all productivity suite software. Translation of data format hierarchy is an advanced transfer property that will be accounted for. Upgrading and transferring databases of earlier technologies will be accomplished using one of three methods. First method is a binary file reading system that parses the data file. The second method will be accomplished by using a native connection to the data storage engine of the data populated model. The third method, and newest method in technology, will be accomplished through the data storage and reading objects within the software application itself.
The reporting functionality built into the INET WEB Operating System will be based upon a set of OOP API objects. The ability to create dynamic, near real time, and readable page layouts for screen and paper is the focus of the subsystem. Most reporting packages of modern day rely on the final paper cut for the medium. However remember the INET platform, being Internet centric, will perform these operations for secure Internet viewing. Report readers typically use header and footer information, while the middle of the page is saved for detail data. The detail information located in columns and rows in the middle of the page. The summary information is located in the front or the back of the pages. Applications called report viewers display the information. Users may highlight a couple of lines for reference. As well some readers cross index the information to other data. There are most likely more use cases for physical paper report handling.
The INET Web OS Reporting API object system will advance production reporting streams technology to provide a firm screen layout, use the 3D WEB OS vector font system, provide high definition color output, allow ray traced animation, allow user highlighting/cross reference, easy motion magnification and scrolling within the viewer. Applications such as office products, multimedia, and third party will be easily tied in using INET UniGlue technology. Report format translation will be a focus of the Reporting API system. Formats will include modern windows, UNIX, Linux and MacOS operating systems. These functionalities will be provided first in API form then in Application Form.
The supported database binary and engine model import is a large set. As well, since most data warehouses challenge change for security and stability purposes, it is a mission critical project function to integrate yesteryear and modern database engines.
With Internet distribution, printing is sometimes archaic compared to the green planet benefits of online display. However, you cannot escape the physical medium when nothing else will suffice. A method of localized city, specialized canvas, and custom frame artist printing for Geographic destination output will be installed in the INET platform printing process. Imagine being able to print at the corner print shop directly from your computer. Considering the addition to user interface, the integration of the feature will be easiest by incorporating an additional line in the print menu or in the print confirmation dialog itself.
The Print Media Manager component must manage contact details, customer billing information, print packaging details and scheduling output. This option must allow users to view available printers successfully advertised by local printing business sorted by printing needs and location. Since extra packaging materials that service the print itself will be available, the dialog must facilitate selection of these items. The user may be able to choose frame type, wood, plastic, varnish color. Normal Glass or Plexiglas may also be offered by the shop. Advancements in three dimensional image scanning and printing may allow specialty prints that duplicate palette knife depth. Other times, the user will adjust the page format to fit the available medium. The corner shop has stickers that can be printed in oval and rectangular forms. However, the maximum size that can be printed is six inches by four inches. INET software will react appropriately with the service vendor to respect the medium. As well, project, with lighting correction to adjust for the varnish artifacts of the material, the real size according to monitor space the image. Other types of signs may include electronics inside for radio wave broadcasts and illumination. Specifically within the realm of visual radiance: color light blubs, animation, liquid crystal or LED should be modeled in view to match specifically the sign model being sold.
A series of industrial robots that paint will be made available to clean up the sides of buildings with specialized coatings that rough textures deserve. At a weekly or monthly contract, the paint contractor will set new or fixed bruised images. In this case the medium for the artist becomes the brick wall, or more likely a range of varying textures and contours usually associated with a building. Covering intricate doorways and window ways by laser measurement and precise masking will create a new generation of available patterns never before seen in paint. A benefit of large media management on the INET Web OS. The details of the buildings exterior, walkway and sidewalk properties can be captured to prepare the instructions sent to the cleaning preparation stage and paint guns. To integrate with modern city object plethora, a simple sturdy cart machine on stable motored wheels, please remove all objects from pathway machine, two wheels on the sidewalk, and four or more on the street.
Details of the extras should be left up to the packaging business provider, allowing for the highest yield in competition. Printing contractors in cooperation with users must be able to schedule jobs, process payment options, and allow custom features easily, e.g. a service that offers delivery of the items to their door. As well, the .aii image file format must allow artists to track their works by signature. The printing contractor’s software must collaborate with copyright laws. Artists will be able to market prints this way and get the money they deserve for their imagination and content.
Users can receive email sent directly to their INET computer account. This is different than modern operating systems, they do not include an IMAP or POP server by default. The messages go to a separate host first and then mail clients access the message box using SMTP. Using INET Web Mail, users can be confident in knowing that friends, associates or business partners got the message. The unique world wide identity and automated verification provides tracing information that can be used for authenticity. Captcha code generators are used for some electronic mail systems for this purpose. These codes are also used to make sure that an actual person is sending the email, not a robot.
By expanding the email address criterion, the same way a physical mailbox address works, an email can be attached to a physical address or a specific device (personal identity) for formal purposes. An alias can be registered for the address as well; the most likely case. People do like pet names but some wear off. Or sometimes an identity mistake occurs and the person has to change their email name. Having a backup or secondary name rather than using the primary fully qualified name allows for sorting based upon meeting type.
Tracking and verifying the sender’s identity is accomplished easier by server software. Physical addresses typically take three or four lines to describe. Only one person can have a unique address but several people live at that address. By allowing a web identity to be as unique, email and web publishing will be more direct to a verified location. Even allowing some addresses to be certified for a physical address can increase the ability to receive formal business correspondence.
One of the major issues in modern day is receiving too much email for reading. Offering a summary of emails according to history is a feature that will be included. Emails with electronic coupons in them (purchase power) can be separate from other busy mail. Other Methods to counter spam use algorithms that scans for irreverent content. This does reduce the overall exposure, yet does not totally provide effective categorization.
Using mail clients that can detect if the message being sent is one that was type by hand will be important for reducing spam. It will also ensure integrity that a person developed the text or multimedia presented. If the message was copied and pasted or if it was a resend is an important attribute to maintain. This will be a difficult engineering problem, however, tracking these traits will be included within the INET Smart Terminal, the VLISM Client, and INET Web OS. INET target goals would lead into tracking sources of the document content's robustly; machine identity. However, designing a system that is tolerant to spoofing content is difficult.
Part of the web server and new electronic mail format will be the labeling of the data object for a specific subject or target within the user's information domain. Currently there is only a priority attached. A data mine example should produce a list of about eight to ten subjects or categories for easy management. Incoming mail will have the label of General, Business, Education, Alert, Bills, Media, Home, Advertisement, Friends.
New methods of information law practice will protect a label so that information sent will be restricted contextually and syntactically for the channel. By allowing dynamic categories to be added under these main categories, further refinement of the mail can be made, thus allowing advertisers to effectively place content such as video, sound, coupons or user interfaces. The user can subscribe to these channels to get enticing offers. This will open the market for advertisers allowing their free creativity to be more effective than a simple email.
A live connection, phone, VIOP or text, can be established when an email is being examined if it is an INET Live View Registered Mail. Example, a customer makes an order with related inquiry. Payment verification is required and they want to make sure the item is of their tastes and quality. It is known that the customer wants to make a purchase of the item that is generally described. Click and they enter the waiting queue using an INET Live View Registered Mail. Options of the INET Live View Registered Mail feature allows users to define a proper window of time when they will be available. You ordered today, but want to talk to them in two hours after dinner is made. The INET Live View Registered Mail auto answer option allows a default message to be sent back or forward it to another source. As well, users can their answer projection time of in queue processing.
The INET Web OS Electronic Mail system has the ability, as formed in OOP API, to direct input and output to any database connection. When application implementation define requirements other than the default email accounts, the API will allow easy management of the facility. Making it a good office communication product to integrate with custom billing and accounting. This will allow third party vendors to include secure communication within their applications.
Allowing the software vendor to govern the storage database points, sorting categories, valid email address book entries, loaded forms, valid surveys or other SoftSpot components, integration with secure information systems can be accomplished easier. The index and catalog system will also store its results for electronic mail within the corresponding storage database address. The GUI portion of the mail system will allow tailoring of application specific domains, groups and other relevant interface facets.
Recently with the invention of large storage hardware for personal computers and stabilization of the software platform itself, users can now install more applications on their system. But doing so leads to usability issues in modern menu systems. By applying the science of Information Architecture to workspace icons, application identity, application startup menus as well as a more refined use of images, users will be able to effectively manage their many applications easier.
An installation is a task that is typically performed once and a while for a given application. However, the user is going to use the application more than once, hopefully. It should be the design of the menu system to organize the application names according to its purpose on the user's system and user's life style settings within its display structure. Simply placing a name under 'programs' does not effectively grow with user's needs. To solve this problem, software designers should identify their application(s) from a standard list, in many distinct and descriptive ways. With more information about the program's usage communicated by attributes on the installation, an automated or semi-automated classification system can become a reality.
Many applications are also overly named, that is, there is too much information in the name itself. For example, "Microsoft Word", "Microsoft Excel", and "Microsoft Access" all contain the word Microsoft. Each user, after several accesses of the program, quickly learns that information. However, it does not take that amount of information for the user to retain what the application is used for. Some names are not reflective of the actual function of the application.
Spread Sheet, Document Editor, Statistical Graphing, Music Player, Music Maker, Audio Editor, Painting, Publishing, Web Surfing are some examples where third parties come up with their unique names. The system will allow defined purposes to link relationally to third party names. The effects of nonspecific names upon culture would be reduced and provide effective competition amongst vendor for the SoftSpot.
Excessive names do complicate the field of view upon the monitor. Typically after several accesses, the user will remember the general position of the item within the menu system. A secondary focus is the seek operation of the object within a given rectangle confines is sought by the skilled eye; positional sorting. The system should allow the use of short names, ones that exclude the word the software provider from the name. Short names should be facilitated as part of the installation process by the software developer so that implementation is open. Its usage and implementation should be based on the start menu panel so that the users can control uses.
Screen real estate is important when it comes to usability and pictures communicate more effectively when it comes to space. Most icons in the window interface are poor at communication because they also rely on words and the vendor's imagination to communicate. And sometimes they are just a beautification of the interface for aesthetic appeal. By allowing pictures to do what they do best - communicate - on a stand alone basis, more screen real estate can be saved. This should be implemented on the desktop as well as on the start menu.
Items that are accessed most are the "Programs" folder. Programs should be changed to Software because Program is a technical word. The Web Server OS market has a chance to further refine names for general usage by all ages if more precise, easier and real world terms were selected. This information can become a selection of user mode as well, thus taking into account the user's age and perhaps education experience. For example, the term Control Panel does not really communicate the entirety of the folder contents. It is a technical term. Much research has been placed into this area, yet an outside consultant familiar with general audience attitudes, appeals and usage should be utilized for this purpose; not a technical person.
Some users may even want a total visual implementation or a hybrid combination of pictorial and text interface. This could be easily accomplished by placing more pictorial usage emphasis on items in the start menu that are located at main branches and accessed more frequently; to the left of the hierarchy. Items that are the main stay of the system, like the main menu button itself, "Programs" Folder, and all the items on the main trunk might be total image display. Then when a branch is chosen that has several items in it that are specific and not group image labels, word labels should be used. So a refinement is accomplished by using ray traced images for category.
The classification system must be manual and automatic in its form. It is a complex task to facilitate a usable system that maintains its coherency over a long duration of time. Users come to expect things to be in a certain place while other items that they rarely use could go into the dust bin so to speak. One thing that needs to be decided, if it is going to be semi automatic, is at what point do branches occur and how to facilitate the configurability in user interface terms. If items that are rarely used are placed into a dust bin, how many days does it take and as well users may want to turn this feature off for specific programs will have to be answered? This feature also ties into a system recommendation of cleanup. That is, programs that are never used, could be slated for uninstalling or cold storage.
In short, the stabilization of standalone GUI desktop operating systems has enabled users to install many applications on their system. Managing this many applications for average users is a difficult and time consuming task. A system should be enabled that allows the operating system to manage its list of applications easier by implementing a small form of Information Architecture. As well, the user interface of the start menu could be further refined by depending more on pictures. These features should be cascaded into other parts of the system such as the explorer, but that is another discussion.
See Also
The INET Web OS User Sphere workspace will be the most versatile, feature packed, and visually compelling workspace known to modern form computing. Pure pixel graphical desktop space front ends, poking segment A000, were first commercialized in Microsoft Windows as an extension of DOS (CPM). Architecturally the devices that spawned forth from the creator’s dream were accesses to hardware located within the User’s base CPU. File manager consolidates at least ten functions (Copy, rename, delete, find, print, etc.)
The User Sphere workspace will provide suitable workspace for customers based on feature need using advanced objected oriented components and highest detailed pixel renderer. High color definition animation and still frames will be shipped to the video card using the best techniques to impress speed, frame depth, and multitasking.
To provide a versatile user sphere one must ponder the noun range for the computer information boundary. Within hardware terms these can be finite. Within the pleasure realm and at play. Within an office department. Within a home environment. Study the differences in age groups, gender, culture background and consider bi-language capabilities. The financial awareness, interests, and hobbies would be of benefit for the layout design. The system must provide freedom for the user to incorporate many information portal designs (components) into super form at will.
Users buy something first to use then to learn. The user sphere workspace will deliver an effective visual interface for the audience, their mood, life style and age by rendering an appropriate layout from a relational data structure. The relational data structure will be derived from many sources: database, expert system, current settings and online information. Incorporating the formal use of audience must not betray usage intent within the design. The INET Web OS User Sphere workspace has the ability to accept a high degree of secure branding resulting from market focused commercialization. Home users will be able to beautify items for their own stylish purposes with plenty of beauty globs from elementary school, middle school, high school, college, your friends, the local neighborhood, local city, state, or other visual spectrum band.
Say you are in an office meeting, you are at work information shows upon a decorated button map with common applications suitable for the meeting. Say you are at home with a two person entertainer night; it will be movies, popcorn, music and video chat. You are a developer working on two projects. An audio mixing studio. A college student recording and taking notes. Say you are at a rock concert. Configuration management must also be included.
The ability to learn new Spheres through the Internet or other device media is a major feature. Say the buzz team at PBS Financials has a great retirement savings plan desktop for distribution. The package will include specialized software, a new account plug-in manage, email links, links to your current 401k, investment links and wonderfully styled graphics. Movies can be played within the sphere. Software spots or portals will exist for advanced management functions, continuing in investment accounting, a link to current banking portfolio, a who is that in business diagnostic and a diagnostic proving authenticity of contractual and Internet agreements.
The INET Web OS User Sphere workspace will enable flow of staged multiple complex editing tasks, provide flow control of related data objects, centralized repository check in check out data update tasks, support readable tasks with instructional links, report summary view to show project readiness, project time estimates, provide spot links to software resale, rental, fully enabled but number of times limited software (INET SoftSpots). The view will be iconic picture gram. Key searchable by alphabetic name. Software advertising will promote itself by first identifying itself within the noun domain. The software spot will be in use by the INET Tabletop designer. The spot will be linked to the specific need (Video edit, Sound, text, fancy text, etc.)
A sphere developer would make a workspace for all of the tasks associated with making a film. Perhaps even specialized desktops could be made for genre. A major object would be the software included. A special effects studio could even design video processing hardware that encompasses controlling and visually capturing movements of robotics. The ability to control camera position, camera angles, and close ups will magnify capabilities. Scene aesthetics and live acting could also be rented. Where motor functions are controlled over the Internet, bounds and operating parameters must be locked on the studio side.
At most times the creation of professional movie sets are very expensive. It would be important to include lighting information that directly relate to positions upon the stage. Indoor and outdoor scenes will apply. Some users may want to modify the set some. Providing the necessary development and deployment technologies so objects can be moved or excluded from a processed image will be reliant upon measurement and identification by the studio. Video input from the user to be a composited will masked appropriately. The lighting information can be used to augment objects fitted within the scene. Users want to make a professional film and make it quickly. Yet depth of content must be followed to provide excellent educational experiences. Typical information strides may teach story boarding. plot development, themes, acting skills, vocal skills, and visual expressions.
The system will make broad use if not incidental use of window layers. The same could be true for a song production, musical CD production, photography, or cooking. The system should be able to adapt to creativity from others. Establishing a working relationship with the user will be part of product development. Recommending that desktops encompass starting and managing a specific type of resale business is an end benefit. The desktop architecture will be simple enough to just have a game jukebox around for guests.
The INET Web OS User Sphere workspace will streamline modern business desktop deployment and provide a stronger foothold for supporting complex information projects because of its audience directness and tooled style. The public education system, home school audience and distance learning community will finally be able to design comprehensive usable interfaces suited for age group while tracking progress and time. The ability for components to integrate with other spheres will be a common feature that is used. Common components that integrate finding information will be included within the framework. In short, the INET Web OS User Sphere workspace marks a new era in distributed computing and will provide a better teaching space.
Providing a growing and self stabilizing mechanism for the user that allows multiple entry points for information within User Sphere Explorer and Internet books using associative characteristic recognition is essential for the new ease of use features. The automatic categorization, capture and labeling of digital data of items stored within low level file system and database includes textual data.
Analysis of textual data will produce search able: abstracts, summaries, thesis, titles, misspells, contacts, opinions from group, source references, encyclopedic references, dictionary references with pronunciation audio, broken links, old links, improper English, related subjects, opposing arguments, literary value (scoring number e.g. 1-10; personal, article, personal letter, business correspondence, academic text, humor, fiction, nonfiction, newspaper sections, magazine, horror, mystery, word problem), author, author’s others, author’s website, syntax, language, usage count, weight within user knowledge domain, and table of contents. Objective entities will include fields within the document: address, phone, email, formulas, algorithms, and processes.
An Internet reader must be able to find related articles, continuing more focused information and consider the source from multiple languages. Technically within AI recognition, correlating writing styles and layouts with concepts will be narrowed by the produced summary data structure. Consolidating multiple web broadcasts that report statistics must be more accurately matched. The type of numeric is most important. Knowing how the value is calculated from formula will ease logical matching for algorithm classification.
It is desirable by a user to view tables of information from different broadcasts (web servers) that relate or cross reference content in consolidation. It is desirable by a user to drill and data mine specific details within the view context. Layout and order is important within the recognition process. Extending the view using graphs may also be important. The system that performs Contextually Based Cataloging of Pertinent Information will cross apply directly here (INET Feeder Applications). The information browser will provide direct input to the graph generator.
Finding related articles on the Internet can really be refined after the initial recognition that a broadcast contains information that directly relates to current article. An important facet of the relationship would be if it is a shallow or deep relationship. Shallow meaning technical characteristics such as those entered by the author or derived from measurement. Deep relationship modeling will be derived from counting keyword content, positional weight, relationally structured network matching, overall weight and relating nouns through synonym of text. Alternatively specialized processing for extended media formats will also be an important factor (video, audio, image).
The browsing interface will show small colored graphs that display the proportions of matching supporting information with current context to new concepts. The information used by INET Web OS to render cognition within the interface will be primarily stored within search engine databases. Calculation of these values will be performed by each Web OS and transferred (queue) to the centralized search engine catalog. The cataloging process will offer the user refinements during opportune times for them. Spreading the classification (recognition) task from server AI processing to the creator's hands. Most appropriate, detailed interface views of a data object's properties allow refinement in classification. During initial creation and finalized writing it will be present as default. Macro directory (folder) operations, industry specific automations and manual tagging will benefit precision.
Describing the content to classify the object within a relational network will be important for natural language syntax searches as well as User Sphere Explorer associative views. Therefore the INET Noun Classification Domain System will provide an entry pointer to start the relationship search. (animal, form, organic etc.).
Office documents such as spreadsheets will include specialized scanning facilities that categorize numeric, their precision, and important formulas. Important factors about the specific application features, operation and product must be considered in great detail. Relating these items logically within the INET Noun Domain Classification System using a pointer will ease searching for users and User Sphere Explorer associative views. eg. Show all documents that use financial calculations to project a budget, show all spreadsheets that calculate distance or documents that produce tabular reports made last year.
Statistics and syntax conformance on individual objects will also be captured: size, binary counts, entity counts (words, html tags, xml tags, is the document well formed, etc.), last sought within a noun domain (pointer usage), captured statistics of use and changes, data source application, data application chain, source location (local, soft, or remote), source country, user, date, time created, time accessed, historical use time characteristics. Assumptions on historical use of computer can lead to document distinction relating time and date to document type. Yet for the most solid classification weight overall, input or selection of the category by the user must be maintained during document creation. The INET Digital Data Object Classification System will be an integrated component in applications that create or modify.
Specialized content analysis within the image domain include visual color probabilities matching to content noun relationships, visual expression (photograph, hand formed painting, art formed, painting genre), visual shape recognition, visual object mask separation (focus object from background, objects, face, human attributes, animal characteristics ). Moving picture files will relate script, rating, actors, genre, related video. Some aspects of the catalog may depend on fingerprint signatures and external movie database look up. Some information may be required to be localized while other information will be found by soft pointers, the information will be discovered at the time of access.
Audio files have specific attributes that are associated with content and rendering. Lyrics and Actor’s voice, Music or Speech, number of instruments, instrument type, number of speech sources, speech source fictional or nonfictional, artists. Genre, etc. Technical aspects of the file contents such as playback DB, DB density, and spectral characteristics will allow further deduction (high voltage distortion, soft mellow, easy flowing, rock music tempo, rapp, techno, etc.).
Management of this data as an object allows new forms of international communication to exist. Movies, for example, have a script that is textually based. It is a format by which each person working within the captive exposure experience follows. New strides in audio technology found within the INET Web OS can automatically remix the voice over to produce results for any language. This will make content available quicker to a world wide audience. Controlling the rendering of the mouth can be integrated within a high quality blending function.
One of the most common tasks a typical computer user executes is finding a data object that was recently created. By tailoring sphere explorer to present data objects by category, time attributes, and scheduled appointment times the items are within reach easier. The search panel, single line, advanced category listing and advanced syntax panel will be typically located at the top, a floating alpha fly in panel. Folders and files will exist associated with an application by security settings. This is a typical application setup for systems that are document based. The table top area of the Sphere Explorer window will contain a row of contextual application buttons that are oriented for associated application work. Under are tasks that allow in place complex editing. New user interface dynamics will allow easy management of window parent, menu option, mouse, easy keyboard to pop it onto another container or desktop space.
Modern methods of propagation are centric upon the data objects themselves rather than the contents. To place an emphasis upon content is the key goal. The user will at an instance, if not built autonomously within the viewing area, peruse contents in a read only fashion. Functions upon the table top should derive usage from a rule based relational data structure while relying upon discovery for application object specific methods. Opening a data object for view or editing will unfold new tabs and place new items within counter top space. If is important to keep the area simple and useful. Usefulness may aslo be necessary to configure for each user by application. Offering three modes of the work buttons using a tristate control will please three distinct groups of users.
An interesting facet of user interface operation that the INET User Sphere workspace will orchestrate more promptly, actively, and functionally than modern desktop operating systems do is the incorporation of sticky mouse memory upon alpha composite layers; introducing INET Application counter top usability. Combining the first preference of the main data gathering device, the Qwerty keyboard, to provide activation upon the Menu, Ctrl, Alt functions that relate system, desktop, and application key maps to OOP INET Objects. These menus operation with extensions using the three system keys. The Menu key by itself activates the application specific menu at the top. Common tasks or operations tie positional relationships to highlighted polygon areas; buttons. These functional relationships humans commonly use will be more refined, described in a more civilized space, and with greater visual grace.
INET Application counter tops will move the mouse to the last known position upon alpha panel overlay visual cue. Ray traced optical illusions at high frame rate will please while sound and sonic communication tingle the ears. Menu-F shows the system wide find, Application context first upon the INET counter top. Mouse pops, gravity pull, zooms into place; perhaps high frame rate visual cue. Function is chosen, operation proceeds, key out signal, tunes frame dissolve, fadeout, dim, glossy rumple, spider effect dissolve or roll up. The mouse moves back to textual data, data object field or last known position. System, application, and desktop keyboard maps must rely on natural first letter function names. For Example: Edit, Find, Copy, Paste, Rename, History, Undo, Mail, View, Delete, Web Publish, and Print are candidates.
Data objects within the user sphere include objects local or remote and whose type includes database, multimedia and the many forms of textual rendering materials. One of the major forces behind the useful User Sphere Explorer is that the integration of preview materials are the result of secondary related application specific renders. Architecturally a layer will exist to make this attainable, This will maintain direct video memory performance and strict stability over many communication mediums.
User sphere has built in pagination with read ahead rendering hooks. The catalog system will use these functions in most circumstances to build up preview images; draw lists. Because the process of application building includes a concise structure for user sphere blending functions, applications built will be textually lighter in source than as if it were an addition within a modern OS. The interface domain of User Sphere will be known to most users making the application document view very easy to maintain. Other functions that users use to retrieve and search for data will also be present due to the hooks.
The search function must be inclusive of many sources of information and present results upon the display in conforming views of stark readability. The search function should include screen contents of applications, textual information, and fields contents. A natural language assistance is also a target. It is most problematic to provide such versatility within graphical user interfaces, but most likely make use of overlay composites and note tabs. Contextually, use will be dependant upon system state, grammar rules, user settings and user context.
It is important to note within the User Sphere window space, tasks or applications in run state, will be maintained to be synchronous with system status lists; Sphere Explorer Tasks. The ability for Sphere explorer to stream remote, server and client caches VLISM will be integrated affectionately with the base operating system. A formable set of APIs will identify and operate upon the go code, executable.
Using the data object catalog, views will be built that classify information within a noun range. Adjectives may also apply. The display hierarchy will expand and contact upon number of objects and other attributes. The purpose is to allow easy navigation within an information portal. The data object catalog system will maintain a tree structure that resembles directory states yet when the classification system is the serving object container, more concise location of data objects will be shown to the user. This simplifies reading and eye scans. Content monitoring can be in place as a function of security. A user might not want those password files showing up in a meeting.
The classification object hierarchy will be built using grammar rules that apply the data specific needs. Rules may change the appearance and order based upon the category within its group. Possibility appearance can be affected by sibling relationships. For example, one hundred videos exist within the user sphere. Twenty are comedy under the PG 13 rating. Thirty videos are drama while thirty are action. Of the thirty action videos, fifteen are rated R, ten are PG 13, three are PG and two are G rated. A typical straight forward logical approach to display the items would be directory tree, genre then ratings for sort order. But it is not the best.
The data object catalog will modify the tree based upon frequency distribution within the superset compared to the subset. Order of the tree may change as well. Groups with more files should be displayed first if the view is thumbnail. Other times the listing may be strict alphabetical. Hidden from observation are the file security attributes. System and hidden files are not shown.
Statistics may also change the behavior, appearance and order of the display. Frequency of use, time of view, segments played within the file, frequency of views within a given time are some statistical values that are important.
Content continuation is an important factor to sort order as most videos on the web are segmented to multiple file objects, that is the name is alphanumeric; the sequence numeric trails. In this case special sorting methods are required. To further the effort of grouping files, continuation can be detected by image recognition or using a field similarity check on the beginning and ending frames, include splice time.
Data objects when identified as a media type have several characteristics that users recognize first: title, rating, genre, related fictional characters, actors, script text content, etc. In these cases, movies can be group together to form a relationship between one item and the next. Undoubtedly music has interesting characteristics and fine grain variations that can be used for identity; title, album, content, rhythm, genre, source, artist, instruments, musicians, singer, writer, production studio, lyrics, etc.
The ability to group data objects together within a list file format is important for media management. The user must be able to quickly create a M3U file with a button bounce upon the counter top. Packaging several files or data objects together for transfer to another machine, user or state (archive) is a common procedure. Processing several video files into one, a click burn operation, or click zap to mp3 player are functions users should not be hampered from doing. Leasing and rental terms for content should be integrated seamlessly allowing artists to gain a foothold within the market due to relationships. User clicks on SciFi Group and sees ’It Came from Outer Space’. Related movies from that time period could show because the film is known to be old. User clicks on SciFi Group and sees ’Alien’. Alien 2 and 3 should not be far beyond while also listing science fiction that is as good in a Table Top.
Other batch oriented operations may affect a file when it is rendered real time or in some cases permanent. The ability to apply a filter or DSP algorithm to a group of audio files, video files or both is useful for many users. Users could let the band equalizer adjust music based upon speaker manufacture or perform a normalization with a soft limit on DB to provide appropriate volume levels throughout their jukebox when playing. The system supports filters in a render chain, support rule based auto-sensing and permanent changes to files.
Common dialogs will make use of the system but allow application specific category locking. The architecture of building applications may involve propagation of tagging and catalog information. Providing common dialogs that integrate with cataloging are necessary. The user must be able to override and set aspects of a file within the classification object system; that the group. The User Sphere Explorer will support modifications of classification both internal and external to the file. Advanced information attained through recognition is editable. Users will be happier to know their files are found easily.
The INET User Sphere Explorer is an extensible component providing a OOP Link between Data Objects and Applications. Typical uses will fin a many to one relationship, more objects to be found. The ability for User Sphere Explorer to host applications should be integrated within language source and computer structure. Programs should utilize interface information of Sphere Explorer to accept data objects, provide cache operations, manage repository and provide multi-user object locking. Using databases, database tables and application specific file formats allocate the appropriate object and resources.
An OPP API layer will provide the necessary tools for a hosting application and Sphere Explorer to communicate. If an application that makes use of Sphere Explorer as an interface component is started, interleaving the loading function with catalog gathered renders will allow quick presentation of the GUI screen. Start Media Player and user explorer is already in frame. Users or a preset will add the burn button to the counter top of Sphere Explorer when a file is associated with the media application. Users can have frame or frameless versions of media player incorporated within User Sphere. Media player can also be an invisible VCR Alpha panel overlay, popup controls with proper system wide keyboard mapping.
The rendering portion of User Sphere Explorer has to be very flexible especially the portion that renders to the data object pane. Appearance, colors, odd even rows, background, columns, column widths, fonts, multi-font, subtitle rows (genre heading), fly out over information panel colors and fonts. Object namespaces must be well formed for current set and future expansion. The memory and CPU weight of the control should be dependent upon loaded features. Finally the ultimate listing control.
INET User Sphere Explorer is an data object manager that provides related applications a portal container. Users will have a welcome mat to make sure the file is the file they want. In short, the data object catalog will bring new smiles to users who just want to use a computer without having to remember where all the files went to.
The flexibility of digital information is infinite because it comes from a natural creator. For example, materials attained from network transmission sources can contain many forms of super types. Dates, times, financial amounts, pictures, good quotes, memorabilia, songs, movies, schedule appointments, confirmation numbers for online orders, job listings, rental listing, classified items for sale, formulas, algorithms, academic reference texts for use with MLA citation, graphs, and hyperlinks are some conceptual containers that users identify with, but there are more dependant upon the user. To provide a way of using the human mind as a decision maker in the catalog of soft, dynamic and hard linked information, the INET Web OS will provide an extensible framework for parsing selected data and shipping it to a related application for memory storage.
The framework conceptually contains four operational characteristics: an INET feeder application, parsed recognition grammar traits, recognized grammar match relating application automation, and historical source tracking. Examples of INET Feeder applications are an Address Book, Phone Book, Dictionary, Thesaurus, Machine Translation, Photographs, Appointment Scheduler, Spread Sheet, Calculator or Relational Database. INET Feeder Applications derive their data transfer linking protocol from well defined OOP APIs. INET feeder application protocol will be an object interface supported by major platform components and applications. The system will give significant might, usability and data gathering capabilities to the web and digital information consumer.
Imagine going to a web page that contains a table of information. Varying upon the information within the columns, a list of good memory storage matches (INET feeder application) are made. The array feeder invocation interface is executed (e.g right click context menu) to summarize options available. Clicking database will provide entry into a new table or existing tables as historical and real-time fan out occurs. Identifying the underlying data format and column names will create better databases and providing better catalog performance. The page will be linked and have the availability for a routine synchronization with event processing.
Supporting parsed recognition grammar traits will allow third parties to develop their own software easier. Recognized grammar matches that relate application storage protocol will provide contextually smart operations that fill data objects of applications. The information storage can take place behind the scenes or prompted validation for submission. Example, on a web page a business is listed along with its phone number, email and website. The user draws an encompassing rectangle around the information and presses CTRL while right clicking the mouse. The information logically could be placed in a number of places within the users information sphere. The system should list best candidates in a pull down menu or other UI implementation. Add to Phonebook, Search on Map, Write a Letter, Send a Business Email, Related Articles, and Contact by Phone should be in the list. However if the user had only highlighted the phone number, Dial Phone Number and Add to Phonebook, or Fax Paper should be in the list. The grammar parsing is smart enough to inspect the surrounding areas to locate associated content specific to the storage application. So if the user only highlights the phone number but chooses Add to Phonebook, the possible business name and address will be populated in the appropriate fields. The Relational Database Feeder application will be the most dynamic. By allowing the user to create at will form, structure and utilize grammar rules for relational database storage will give dynamic tailored storage memory to the user. Creating reports, searching, and linking will give a tailored flow that benefits usability.
Historical source tracking is important for users who wish to backtrack where something came from. Optionally on selected cases information can be stored locally or logical remote (cache local). When items are stored in a remote location, the opportunity for dynamic reevaluation of the contents can be automatic. However, this kind of automatic feature might be cumbersome for the user since the data and relationships to the sibling products can vary greatly. When items change, the user may need to make house keeping modifications to maintain validity and coherency of document flow. So the automation of data object revaluation will need excellent planning within the structure of the graphical user interface and provide safe usability measures.
The use of the keyboard combined with mouse operations, mouse over and mouse click, should be configurable with ease and tie alphabetically with useful functions. Remember the nice old DOS days when terminate and stay resident programs became available; Borland Sidekick. These programs remained in memory after loading. By hooking within the chain of the keyboard interrupt, keystrokes could be scanned for matches. The useful dictionary became quick to use as the program just popped up. Technology and operating system design has changed in so many ways since then.
As an information consumer of textual information, the formal dictionary is a necessity. However, its integration within modern desktop operating systems is poor. The best way to create a more steady flow of reading and comprehension is by using INET Hot Mouse Keys in conjunction with INET Feeder Applications. INET Hot Mouse Keys are configurable within the bounds of the INET User Sphere Workspace. The most useful would be the Windows Menu Key, the shift key, and D and a mouse over operation. Upon mouse over of a word, with a half second delay after mouse steady, would show an alpha composite layer that has definition and pronunciation. Future AI practices may extend the first definition in the list to be contextually related: noun, adjective, first definition or second definition. While the keys are held tight, the window may be scrollable and provide navigation. Clicking on the title will may it sticky, that is not disappear after the release of the INET Hot Mouse Key.
Another useful INET Hot Mouse Key user interface operation is the INET Wiggle Selection; a soft selection for INET Hot Mouse Keys that includes long segments. In this soft selection operation, the user wiggles the mouse over several words and then leaves the mouse cursor at rest upon the soft selection indicator. The function is activated.
The system is intended to be installed as part of the INET Web OS experience. Therefore the relationships grammar and feeder applications will be set as a default feature of the operating system. The system will be active for any application within the scope of the User Sphere Workspace since it is commanded active by the user using the CTRL and Right Click interface combination. The cataloging system will provide OOP structure for third party advancement based upon the directional purpose; no sense in allowing confusion to enter usability. When the contextual grammar parser is filled properly with super data type recognition, new forms of productivity can be had and understood by the user.
The control of the basic API syntax and the effects of them upon applications that come with the INET OS for reference of original implementation will be available as an INET SoftSpot Object. INET SoftSpot Objects allow replacement, multi-version management and rollback of individual applications and pieces of application workspaces at user will.
Imagine a physical implementation analogy such as a grocery store. They sell Strawberry Twinkies, Raspberry Twinkies, and extra Vanilla Twinkies. The store should not block the inventor and provider of the Raspberry Twinkie. Therefore tools such as the User Sphere Explorer, what was used to create them is implemented as a INET SoftSpot component, INET Application, a UniGlue Object or OPP API.
INET Software Spots will provide real-time usage of components and trials. But for the entire market to function freely, compliancy in digital data format and object description format must be maintained as a licensing and testing agreement. So if a user wants to try a new video editor that has snazzy ray traced effects it will not cause errors in future operation. If the user wants to use the product of the video editor, but not keep the editor as the default one, a rollback operation can be executed with two taps; double tap roll. INET Software INET SoftSpots have an implemented (OOP) translation interface with the INET Format Translator. Hosting applications that wishes to query multiple INET SoftSpot versions will ask for their list of native format. Text, Image, Video, Numeric are large domains and most applications can host a variant. INET SoftSpot objects will also support Automation.
The software cataloging system for the INET Web OS is a comprehensive digital data manager for the INET software industry and fantasy entertainment industry. Digital data includes meta formats like video, reference film, book, reference book, three dimensional models, textures, cgi animations and music. Software for the INET device includes INET Applications, INET Device Drivers, INET Web OS User Sphere work-spaces and INET SoftSpot components. The user from the INET User Sphere workspace will have the ability to manage software installed within the Web OS and from within applications. Some software may be resident upon the device itself while other facets of software distribution may be persisted at an array of remote servers. The Digital Data Store Business System will be an integral part of safe software and industry digital data management for users worldwide by incorporating a reference source metric that notes original binary properties. An entity's preference will be to balance to reference editions.
A secure authenticated connection between the INET embedded device and the off-site large computer manager (home base) will exist by network computing designs. A software publishing house authority that manages digital data transfer will close many issues related to software corruption for the application resale and distribution market. System administrators can lock a Smart Terminal to only allow installation of software from a list of specific Digital Data Stores. These Digital Data Stores, much like your favorite restaurant you eat at in your own home town, will be a physically secure environment. One will exist for your consumption from people that you know and trust.
The system will manage protected identification of the software imprint according to the source. When a system administrator performs routine diagnostics for maintenance, software will be check summed using these values. The software version and binary signature must match the license policy attained. Disconnecting functions during this phase is handled by the rules defined for the user's software relationship. A software disconnection phase might provide a formatted wizard to pay by the minute or translate user output into an owned application's format.
The new BIOS created for INET smart terminals will allow an administrator to introduce steps during terminal boot that verify the base INET Smart Terminal's resident operating system. As well, integrating itself into the application start pipeline to before execution, will allow real-time network checks of software authenticity.
By providing a focused digital data connection and appropriate GUI integration points within the INET User Sphere workspace framework, users will achieve higher success and satisfaction from their endeavors in computing. The ability and potential for software vendors to compete fiercely within the realm of fair intellectual competition will be promoted by this model. Commercialization, and advertising of software within the space should be developed using a fair yet profit oriented design. Using INET Point to Point Security Identity Transaction as a means of authentication to a digital data warehouse will give high security to the process of software management. Something today is just a file download and click to install.
Anti-piracy law as a function of software management is an important yet often poorly integrated within the realm of the user relationship. Most developers and vendors have to supply their very own methods without support from the operating system. Because Anti-piracy support is not built into modern operating systems, low level developers can overcome software locks by disassembling the application using its binary machine code and then modifying the protection code with NOP operations or provide hacked keys. If the application is advanced enough to perform self checks, again this can be overcome by NOP.
Other aspects of anti-piracy establish a poor user relationship. Users must keep records of license numbers. If a system failure occur or their machine is stolen, investments in machine setup time and software are lost. When a machine pleases users, typically a large amount of programs are installed. The user must remember where applications were distributed from. And what was that license key? License numbers were built for users to solve a copy protection issue; or at least being able to track duplicate entities within a domain. CD and DVD copy protection have their own work, some very sophisticated in operation but ultimately lacking completeness in solution due to physicality of the medium; it is a DVD; it can be copied; it can be installed on another machine.
The INET SDDS Business system will employ an anti-piracy software management feature that is the best known method to known date by utilizing a centralized repository. Digital data objects are controlled as they are transferred from the vendor to the client. The system imposes licensing by delivering the precise version. As well, restricting logic based upon the source country's and target country's import export law. Registered software users are tracked. By possessing such tight control on installed software, the system will ultimately reduce, by a large number, illegal copies of digital data while insuring digital and application integrity of the system for a life time.
The software market and its policies of dealing anti-piracy were cultivated on an as needed basis. Of innocent being, each engineer under takes a task to complete to perfection, useful and within agreement. This cannot always be accomplished, yet the traits of a working relationship are there. These individuals do not think about theft in terms of physical property. They immerse themselves in the logic of digital data. It is obvious that copying a creation is easy. Software locks were developed as an after thought to correct the problem. The entire model of handling both physical world items and digital data items within standard culture is misguided. The intent of the industry is filling a technology need or fulfilling a fantasy. The end result is that the software engineer, author or publisher wants to receive financial gain for their creations. Game programs do take an enormous amount of time to complete. The same is true of a film, song or art work. The INET Software and Digital Data Store Business System will support software promotion in a natural ways.
Software promotion accomplished by allowing a user to suggest a piece of software to an individual is a great concept that the system includes as part of its anti-piracy policy. Users will be able to give free software rental time of a specific application as an introductory gift, the price wizard. Optionally without expenditure, the software can be positioned in front of a user for a trial use. It must be done so without extraneous information such as computer generated packages often note. The software management system will do this proficiently within the application frame for consumer software titles. Items such as specialized editing packages will now get the notice they deserve.
Communities of game fans are sometimes tied together by innate culture similarities; kids play together, the office has a team of role players, or you like life like simulations. The system will allow the definition of a group of recipients that are either public or private. Groups and users are defined through the standard operating system interfaces thus also connecting the information source to business and personal contact databases. The group will be defined to be recipients of software titles. The originator may only let select individuals within the list. Including the item as a packaged format title, considered web published, should be comparative to the operations of an email. Some personal communication within the portal box will result. Games and interactive seem to be the leading explorer of the realm.
This underlying software advertising and inline redirection feature will be supported by an API set to allow developers logical inclusion of the technology within their applications. The system will structure the software catalog and associated promotional operations to offer ease with linking and promoting software. If user policies permit, the system will enable tracking of potential customer bases to directly market specific types of applications and well as complimentary products. This will enable the quality, conformance and excellent attributes of software to be a humanized function of communication.
Imagine the ease of use and knowledge propagation found within educational titles; a list suggested by mother goose herself. A school may include several specific titles that follow close to teaching guidelines within a group and send this to her student's laptop. This group and its information can be directly attainable by the hands that will use it. Providing for flexible payment plans out of stream from the student teacher relationship is necessary. The teacher can give the student a location URL that suggests such software. Hopefully this will make it home to the parents where they will use their fitting adult computing devices at some time in future to select a payment plan. The children will have their very own computing terminal, rugged, durable and water proof geared strictly for educational content. Potentially several versions of INET Smart Terminals can exist, even ones that glow and have space cadet plastic with graphics for boys and pink lace for girls. However, there is an argument for school books being released by the public school system. It makes logical sense to have school assign computing tablets.
The INET SDDS business system provides finance plans fitting software industry needs. By doing so, the software industry can become more successful in propelling favorite software practices and development. First by reducing the broad focused, negative social impact of illegal software use. And second, by providing a finance schedule payment plan. The goal is to solicit potentially nourishing users by embarking upon a sensible relationship.
By providing a rental, quick software loan, GPL License, Tracked Free Software, Trial Plan Agreements and Software with Royalty Licenses within flexible payment scheduling, more investments will occur. The system can measure actual software use more profoundly. GPL software and Tracked Free Software is under the terms are free. However, Tracked Free Software records the user and terminal for potential marketing advantages. Specifically for development, a specialized payment plan will exist that distributes income at the point of sale during the transaction of a super-application. A super-application is an application that is contructed of multiple third party technologies. Based upon a defined software license, the super-application may use many components for development ahead of time for free or a nominal fee. The INET SDDS business system issues royalty payments as necessary, splitting the net sale as imposed by the software license contract. This will benefit competition due to the subtraction of the initial investment costs for quality third party objects. Software quality and versatility within the market will increase due to the new freedom found by small yet creative software development teams.
Software trial plans are defined within a database containing rules that exhibit savory variations in methods used in logical display and functionality. Implemented as a light syntax embedded within the source model, development costs associated with full bodied applications will be managed more effectively and securely. The system provides precise granular control to enable, hide or disable functions of applications. Server based authentication will manage the software license and software trial license within the context of these rules. Several versions of these rules can exist that combine name-spaces of trial or version specific controlled features. These name-spaces are analyzed within the context of INET Object Technology to provide a precise copy of the application. That is the user never gets the entire code cut block until a proper software license is achieved. As well, some attributes of information technology law as instructed logic will result with these databases to facilitate import and export laws to and from countries.
When software trials end or the time block is expiring, the ramp down software process should offer count downs, persuasive content and provide a descent stage. Providing a social exercise such as this is common in a retail environment. The practice will form more meaning within the context of software promotion. If data was created by the software use that the user desires and values, translation of this data might be pleasing. The data translation of trial application output should not be blocked but promoted. Cleaning and removal is also an afterword process that can be instructed by the trial and feature database of rules. At some times, complete software removal will be the target. Providing a soft link to this software using INET Web OS archival memory will also be a beneficial feature.
The ability for Virus, Spamware and Spyware malware to arrive within an operating system is typically gained via the Trojan horse method. Users download something and expect it to contain only the information described in the product description. Methods of detection are evident in modern form diagnostic programs. By ensuring integrity of applications using these scanning methods, verification of digital data version with software vendors and provide manual testing assessment statuses by an authorized software warehouse manager, the ability for intrusion will be drastically lessened. Just like a California, USA bicycle rider, you must have a license to publish executable content.
The ability to register developers and vendors will be management function of the system. It is expected that one be able to track and possibly keep changes to the program up to date. Software payment to the developer will be achieved through the system. The registered developer information is intended to provide a software contract relationship between the user and the vendor (developer). It provides a professional interface to query user needs, their support help and provide an interface to correct logic errors. Official investigative methods will be built into the system. If an application or developer is reported to misuse technology as in terms of information law and known to cause malicious damage, the signature will be installed into the block list. Within these facilities, reporting and digital data management will be a functional role.
Most users realize the capabilities of computing rely on software. The ability to find and research products is essential for learning. The INET Software Catalog system will provide a hierarchical relationship model that defines application implementation boundaries. As well, Digital Data Objects (music, videos, textures. audio, sound, animations, and 3d Models). INET Software will be labeled. as a server store component, the information portal will render software use, the manufacture, company historical data, previous user relationship data (anonymous), user reviews, and related products will be in warehouse queue. The system will allow branding, visual flow control and business object integration so that third party vendors can integrate application resale as a business cycle.
As a protection from malicious code, the computer terminal and INET Web OS operating system will use a single point to retrieve an INET software distributor list. The Software Distributor List will be a super list formed from the INET industry list. It will include all servers that are hosting the INET Software Store Business System. Country, line distance, application usage, specialty, license cost, and original language will most likely be the main separators between each store business system. These Software Distributor List subscribers, will be authenticated using several protection methods.
One method is software application and component authenticity. The item and quantity of it will be maintained in parallel state with the appropriate business references. Financial distribution costs will be held in confidence as a digital data contractual agreement. Financial gains will be quantified and distributed at the time of sale. A minimum of one software purchase must take place to start the distribution method. In other words, the re-marketeer will establish the promised license rental and capacity will be set and understood by both parties (Software Distributor and Retailer).
Ensuring financial transactions work properly is essential. Software rentals can function freely within the retailer market due to location and hardware asset distribution. Establishing a private whole-seller software rental time unit price will allow retailers room for adjustable markup. Backing this information up through network activity monitoring is characteristic of the risk. If the fund splitting process is blocked by hacking into the system, the disarrangement will be identified. By measuring the data throughput characteristics in proportions to financial transactions to provide investigation data, INET INET Software and Digital Data Store Business System will ensure the company's companionship as a wholesale software buyer.
A trusted statistical system externally monitoring network traffic will quantify and sample streams. Sensing the differences between software demonstrations solicited by an anonymous potential buyer from an official distribution method is one of the system's tasks. The retailer distribution markups, that is, why they are in business, will be secure as seen in physical implementations of modern day.
The capability of a retailer using their knowledgeable software and implementation expertise is promoted within the INET Seller Program. Their education can be used beyond that of just serving the creation of another individual. They can re-market items or collections of software selected bounded together within an INET Web Sphere desktop for example. Therefore their knowledge of software study can be implemented in many facets of customer relationship. Allowing specialization and on-site support solidifies these necessary ingredients. The business owner will use the tools and their knowledge along with other hardware products. Hand in hand some markets go. INET Web Sphere desktops include automation scripting support for specializing even further to reach full potentials.
A company product registered as a SoftSpot component or INET Application will have the ability to be installed real time within the system. Allow use of the while installing and no reboot in the end. Any data translation that needs to occur to allow new software to operate will be processed. Applications can be trial based by number of uses, full function free, rental by hour/day, purchase time block (gaming or specialized software), purchase as you use (functional), Pre-use Layaway (lifetime guarantee; license) and full digital box set (lifetime guarantee; license).
Health check statuses for the software will be easily readable by the user. Users will be able to tell how many people (percentage wise) already use the application. The system will provide an effective way to determine if bugs exist within the application and if they are very serious issues or just minor stuff; screen pixel glitch. The INET embedded device will contain low level code that tracks software to determine if Anti-piracy laws have been broken. The software will be disabled from execution and revert to the disconnected phase. That being said, in most cases comparable fully functional applications will be available and suggested incorporating the free software foundation.
The catalog system will add professional re-market value to applications for local area advertisers. Knock off duplicates will not be allowed. The system will provide integrity checks of all registered warehouses within a digital neighborhood. That is to determine if they are a legitimate holder of download-able materials; information arrived at by cross electronic reference. The INET Web OS and embedded device will contain logic to disable pirated software.
The catalog system provides a self functioning forum desktop that thrusts business relations. A method of mapping new titles gained in inventory and then suggesting them to a select list of clients is captured within the facility. A list can be viewed that displays available software that is absent of currently owned software. Collaboration functions will unfold to multiple function purpose. Establishing a software publisher investigative connection will be exciting.
The catalog system will promote the capture and distribution of funds by sorting the availability (including bandwidth) of software by geographic location. This will provide a good income distribution method for branded digital data stores. Some consumers will enjoy shopping at the local audio and video store online. A natural practice in metropolitan shopping. Other circumstances tie software necessity and use to a specific region. Example, a system that runs Taxi Cab companies using broad band wireless technology would be a competitive product in urban areas where taxis are plentiful.
The system will also protect the software licenses the user has accumulated over the life time history of a user persistence. So if at any time a user wishes to change service providers, their bought applications can follow. The system will also provide tracking of off server large byte files; movies and groups of audio. Instructions for scanning content will be given by the INET Web OS to the client device to execute. Allowing a movie studio to possess and track licenses of digital movie owners will provide integrity to digital video over the web. The system of software and digital data object management will be designed as an integral, useful and easy part of the user experience and developer application life cycle. The INET SDDS business system provides the basic retail store portal for digital data. As a unified process, users will incur less trouble and be more affirmed in their software desires. In confidence users will cheerfully escape common computing insecurities.
Marketing physical items upon the Internet, especially items that are held or worn upon the hands, will be elevated better with the complete gesture recognition system, topic electronic cameo motion device, INET Lighting and Sensor, video camera and image processing. Imagine going online with a nice slender ring worn on the right hand. The desk light held before your is extended with the telescopic arms folding so that the light beams softly upon the right hand. The direct measurement of light that is shining upon the outer portion of the right hand will be acquired by sensors. As well, the measure of ambient light near the eyes will be captured so that the precise illusion of wear can occur. A complex calculation is used to show the sparkling eight hundred thousand dollar diamond worn upon the screen.
Creating the catalog will be easy with the INET Three Dimensional Professional Network Camera. Because the information is very large in nature, wireless connectivity to a large storage device will make the process of capturing a shopping experience fluid and continuous. The INET Three Dimensional Professional Network Camera captures at a very high resolution. The camera also captures volume and depth information using laser reflectivity as a means of acquisition. The camera captures its on position relative to the accompanying base stand using precise signal triangulation; GPS is not accurate enough. The known x,y,z,w numeric values are calculated from this information to reveal the camera's position and view angle. Each of these numeric packages are stored within the corresponding video frame data. This information is uploaded to the INET Three Dimensional Image Server where the data is analyzed, sorted, compressed, and formed as a volumetric pixel file. For compression purposes, a polygon and triangle scenegraph can be built to support first person views quicker. Objects within the form are identified statistically. The package and file format supports translucency using scene-graph functions. The basic form of models in pixel data notation can be combined with any other type of graphic source to form a world.
The server pipeline process matches items in inventory using the record location of the wireless tags to an object tagged within the volumetric pixel file. The Three Dimensional Volumetric Video Editor can be used to move items and paint within the space. The editor is based upon the Volumetric Video API. The API also has the capability to produce compression by creating a stream of polygons and textures that describe a space and field of view. Perception of height can be easily adjusted using this approach.
Other users may wish to employ the use of the INET Professional Network Camera. There are instances where several photographs of a given angle and position can be converted into three dimensional objects. This information can be placed within a volumetric pixel file. Both of these camera video devices have the capability of reading wireless location tags. However users are not stopped from employing the use of a personal camera.
Management of inventory affects the rendered version of the store experience. So if items are moved or relocated within the floor plan the scenery is adjusted to suit. As well, if items sell out and there are no more in inventory, other garment objects are rendered into place. This will keep images projects up to date with actual inventory within the store. The comprehensive inventory system allows items to be captured in natural detail. Providing room for further description of the item retrieved from external sources such as manufacture is a feature that will help create a professional catalog for users. Most of the detailed information in directly matching cases can be shared.
Garments having wireless location tags will be recorded by the beaconing identification signal. Using field of view visual references, the user will be able to mouse over a garment to select it. Quickly within the experience price and components are shown. Components, or related entities will allow precise unknown knowledge about the item to become readily available. Textile materials often have specific traits that make them likable and usable by customers. The Goods Shopping Store on the personal device will allow preview of the item worn upon the body. Providing color compositing of items that are selected. Offering within the interface naturally may be items that compliment in color coordination. Emphasizing upon the store's named goods that match directly. Image information can also be linked manually by UPC bar code read and bar code entry. However, the process will take extra care and video editing to tie the inventory.
The INET Goods Retail Store Business System (GRS) is designed as a directory information system. Classification and review invoke changes to a geographic regional server. Automation, attracting image, accurate and precise information about the entity will be cross referenced. Including ranking attributes such as electronic tender verification and cooperative business policy verification will strengthen the capabilities of many questions of integrity.
A store entry has a named and a search-able noun classification domain. The system will place more weight upon the explicitly named. Implied groups will be found still by using the cross reference of a synonym table. The system encapsulates a business entity to be known within a larger directory of businesses. Allowing for more precise and relative relationships to exist in search-able form will position business names and purpose in a functional order. The entity will have precise information attainable by a larger audience; a public domain business face. Information and user interface released will be based upon the relational security of the viewer. Considerations of logical groupings will be magnetized to the security portal. However as always specific traits and roles are a growing database of needs that are specific to even screen data.
By directly relating known location of a potential customer's device using visual mapping data that is broadcast consumer grade, the consumer will know the distances of goods. Allocating pre demand deliverance data (desire) within the INET Device using the INET Goods Shopping Store interface will consolidate and allow financial management easier. Electronic commerce tied to a geographically based shopping cart system will allow quicker attainment of goods than mail order shopping. A community based approach; a community can form.
The INET Goods Retail Store Business System (INET GRS) allows many stores to be tied directly together establishing an electronic relationship. Providing store to store communication is very important. Physical details, contact details, components, services, inventory, and abilities will be definable using a relational database structure that is expanding within reason of use. Contracts, payment and delivery schedules will be element first for the person with the key. Allowing for a growing model that is unique for the individual, entire business, market sector, industry and economy will become a metric attainable encompassing more individuals than ever before. Enabling person to person communication as a means of business relationship will be quartered within the appropriate user interfaces for the industry, the moment and the need. Measuring use of services and factors of continual use accurately using, at some times even independent means, while covering business intelligence history will be integrated with the INET Business System Intelligence Engine as a means of propulsion.
The INET GRS business system with the INET Goods Shopping Store, an included software package in the client, allows a community to form a mall online. The requesting of certain types of goods by selling and consumer trend can be fore casted by the business owner easier. One main view of the mall will be presented as a geographic map presentation. Upon a broadcast consumer map, users can review nearby stores sorted by location relative to their current location. Allowing a system of information to form and function within single density view will be necessary to anchor. Of course, providing the ability for the mouse or key to retrieve more detail for closer inspection will be fulfilled. Readability and legibility must be strong ingredients; information must still be categorized within the layer. Giving greatness to the portability URL Transmitter, the map information can be near real time, thus including precise location of farmer's market peaches. the fancy cheese or the used book library found at the corner pocket table.
Basic operating parameters and scrolling operations will be based upon the available functionality and size of the display component. The Web OS uses a face plate architecture for display and input connectivity (OOP) to offer no compromise of a device's inherent abilities. The INET Goods Shopping Store interface focuses upon identification of new material, identification usage, include usage count, fitting current objectives and identification of an entity to be a primary source narrowed symbolically to iconic (a named category or service) will benefit quick usage requirements to form habits. The named domain category identifier will be a common noun derived from the natural relationship domain expressed from use. Stores have a name, they have a motto, and a relationship. The information database starts, of course, with the INET Market List to supply an initial bounds. While considering the usage, intent and personal characteristics of the user, the text, a matching expressive synonym, will be rendered using the necessary font. The resulting vectors will be integrated with the line data to produce a high contrast economy map. By reducing the color within major eye scanning areas of a map, a maintainable interface with legible texts can be a good starting position for the market. Navigation allows one easy access to the contents of a store.
Statistics of the store and its prices can also be found. Rating and other information is easily accessed. One of the best features of this system is that the power of marketing using electronic medium is in the hands of the business owner and the public. Providing adequate and appropriate weighting of information is important. Reducing issues at most times can be either personal communication related or product related.
The INET platform will expose functionality and applications to create a market. The raw value established without transaction penalties. The price of doing INET business comes from purchase of the software suite. First and foremost, proving to customers that changing or enhancing their current sales platform to INET will facilitate money. It is a goal to provide cooperative and progressive migration technology to ease the financial burden of an entirely new system. However, new businesses always have newer technology. The premium benefit will be gained for those technology users.
The flexibility of the INET web Server OS will allow remote installations to give optimum choice and freedom to the consumers. This will promote sales and upgrades by pleasing customers more. Remote installation by a portable INET device to register newly purchased hardware or software will quench the time savor thirst modern customers demand.
Imagine this scenario, a short drive down to the local Radio Shack or Borders Books where they will sell software and or hardware for INET compatible devices. Proudly walking out with the new item: game-top, camera, or INET radio you get to the line. Check out, the credit card went through! Now its a mad dash to the car to go home and install, or really? Remember this is the New technology frontier.
Using your cell phone or other INET device, you can enter the registration ID or IR scan of the bar code and the software for the item is installed onto your central server account. Peace drive and a sound bounces (optionally) upon your car radio, "New software installed". During the software installation, streams are created for each of your devices that can use the new component technology the consumer purchased.
As well, if the INET Stream software is completely new to the device, and the INET operating system was not previously installed, a remote experience will be developed for the device consisting of image display, decryption algorithms, compression / decompression, graphical user interface, and stream services that will match the bandwidth and existing OS until the components are installed. The user can choose to use existing browser technology, or preferred method of a small footprint pCode engine. The method of quick response install is a dynamically loading engine which downloads microcode instructions and allow Installed OS APIs to be called from the server; a small pCode Engine. The engine's instruction cache will change dynamically as time progresses to further refine the experience on the existing platform. Assigning IDs to the API and microcode block instructions will shorten future transmissions (machine code macros). This will allow the user to gain control of the INET OS quicker without waiting while the download of all other options occur in the background.
The user should be able to define where the software will be ran from long term and do so in a context that makes sense. The user should also be able to set where applications run when no connection will be available but will be in the future. This will allow users working in remote environments where network connection is unlikely to still function. While software is running in a local, remote or primary host context, the viewer must display an unobtrusive visual cue to reflect this state. From this visual cue, transfer of execution context must be available. Use Case A; a user of Microsoft Windows tries the new INET operating system and then decides to install locally on their hardware for full fast performance. Use Case B; the user has a purchased a new software painting program for their existing INET primary host. They began immediately using the software from the remote host provided by the software vendor. While they are using it, the data and all of their creations must be transferred seamlessly, and have a noticeable context change.
Most likely since INET devices will have the INET OS Render Client operating system installed already due to embedded system design, this feature will be used by new Apple, UNIX and Microsoft Window users. The streaming services will handle connections with the local file system, allowing the remote host the quickest access to documents that the user would want to modify. The host must account for partial file upload parsing so that immediate interaction can occur. For example, a one megabyte word file should not require all of the contents to be sent to the host, transferred, and resent to the mini INET OS; random access files in a machine code macro.
This will be a pleasing experience for the customer because it will not be a bother for them to handle discs, prompts etc while the software is being loaded. The work load will not happen at their local machine but on the server; modern day likened to an old IBM 350 disk storage unit whirring about.
The INET OS web operating system will provide scheduling, automation of events, automation of scripts and automation of applications. Applications can receive automation data sets from a database table, XML document, or parsed parameter Internet transfer to populate the fields. Windowless entry will be required. Logic that provides data type and syntax checking on entry components as object events can optionally be active. An XML DTD document may also be appropriate. The output from errors and success will go into a queue associated historically and hierarchically with the passed dataset, script and event.
The collection of the Automation events, managed within an OOP API architecture, will include dynamic web actions, local system events or remote system events. The target for the subsystem is corporate architectures where batch processing is performed on a regular basis. Applications that are used in other parts of the corporate data domain yet are not used in everyday forefront processing can still have up to date use with this system by linking the modernized everyday use system to the less important one. Cloned data pointers may be useful here; a database construct.
Scheduled events can be time based while others will be based upon successful competition of previous processing. The API will support queue dependency processing, success or failure of an event will trigger rollbacks or the commit action of the transaction (job). Mainframe computing professionals commonly refer to these functions as batch or job processing.
Interfaces to the scheduling API will be computer language based and GUI interface based. The GUI interface based application may not be able to support all the logical combination features common to resulting products of object and structured programming languages. An accompany application that presents a calendar user interface will provide access to the core scheduling and automation API. Security must be at the forefront.
The INET Macro Recorder will produce sessions of the user's actions so they and third party add ons can enhance the INET User Sphere productivity for their own objectives. Suggesting an output to automation scripts with a large frequency of programming language support. The system is intelligent enough to track modifications within the environment and allow in flow modifications and by user debugging. Applications that subsequently run underneath or invisible of the macro, will post into a queue status. Macro Recorder applications will also support GUI interfaces. This is a large component of the underlying architecture of INET User Sphere workspace.
Some industries and home users will plan on having their own INET web server OS with a group of Smart INET Terminals. Hotels, for example, often have computing resources available for their guests. However, asset catalog, software/access control and branding are typically left up to the local manager. This is not a good deployment as the skills required for system administration are specialized on modern platforms; the guests are professional.
For the INET Web OS Client Terminal, internal web OS logic will depend on the amount of local cache the terminal has. In some scenarios no cache will exist identifying it as a Smart Click Terminal that has an embedded operating system. In other cases like WAN distributed terminals, the cache may contain typical applications hotel guests use. Most aspects of the user interface are configurable, allowing a novice user to quickly build a suitable kiosk interface if desired.
Security of human interface devices must be handled correctly for the user so they are used in a desirable way. The INET Web OS Client must not allow images from the camera and sound sampled from the audio card to be transferred over the Internet. These become a privacy issue. The operating system must allow only the correct program to gather readings from the keyboard. Private and financial data should be held in secret and only allow the correct programs to be linked.
Time usage may also affect use. Libraries for example, typically have detailed policies associated with each terminal or laptop they lend. Each location will have different rules upon use, time (duration) and allowable content. The system will provide scheduling for use. Potential users are either an unregistered guest or have a computer card. They schedule themselves for a slot of time. During scheduling they can choose from groups of terminals. The group a terminal belongs is defined by the library hosting center and can take on many distinct meanings. Some terminals are labeled according to their floor, or the software they have installed. Other terminals are grouped according to their intended age group; tiny chairs.
Users wait until their slot of time occurs. If a previous user has the terminal leaves early, the next in line for the terminal may be able to slide in sooner and get more time. The registered name according to the schedule typically is displayed on a rolling marque, monitor or LED sign. Alerts show when terminal becomes available or a user on the schedule is in queue. Users have typically five to ten minutes to sign in before the computer is released to the next in line. Operators can override the security. User can cancel or reschedule their appointments.
The terminal administration faculty includes the query of all hardware component manufacturers, model code, product id, revision date, serial number, absolute capacity, logical capacity, quota management, and CRC of FLASH embedded machine code. In the past, developers created a series of complex diagnostics and identification routines that identify some aspects of hardware that modern personal computers possess. For example, calculating CPU speed is calculated by the implementation of a looped set instructions with high resolution timers.
Descriptive information that is textual data can also be acquired. Latest revisions of microprocessors have a specialized mnemonic appropriately named CPUID which loads the vendor string into a string pointers. INET Hardware components will have this capacity explicitly within its low-level instruction set and more. Yet, supporting legacy hardware will still require programming finesse. This information is used by the terminal administration identity cycle to communicate and decide precise driver and software images.
The system state and administration portion is considered mission critical and an image recovery manager must be maintained with necessary security privileges. Communication failures are accounted for within the subsystem. A large dependency problem is solved using new hardware that is integrated seamlessly with software user interfaces to perform system or application specific roll backs of current RAM image, local storage and server storage with precision. The manager allows selection of system wide states, per application in storage, and per application image in RAM. Per application image in RAM recovery is a new feaure that allows data recovery of dialog fields, picture, audio and internal program data. The INET Web OS software management subsystem will be accessible within this user interface; if not one. The system supports driver image, FLASH BIOS, application ring executable, VLISM machine code, and data file incremental updates. Providing a base, automated structure for segmented replace and expansion of binary data within all rings of the INET terminal and legacy hardware platform will solve management features necessary for friendly developer and user communication.
The INET Smart Terminal BIOS will have the ability to log unsatisfactory information about the user's functional experience into a database. This database will be accessible to the system administration series of query applications, artificial intelligence rule based solvers, and resolution tracking services. The rule based tracking engine, accessing from the server, will have direct access from the BIOS and communication layer to protected memory ring access functionality, private device input, CPU and video overlay priorities. By incorporation of this feature, the system will have a vulnerability to prying eyes. Because the process facilitates uninterruptable services, it can be considered a large access point and a technical risk. However, this functionality is needed to interrupt misguided services like viruses, malware, and spam. It is also needed to ensure basic operations are functional. It will be the ultimate duty of hardware and software engineers to safe guard this namespace of the VLISM instruction set.
This subsystem of INET Smart Terminals, will operate in four modes: Global Application Layer, Select Application Layer, Investigation and Officially Certified Investigation. The Global Application Layer mode will allow users to report issues with any faulty applications. This service and resulting information will be treated as a system wide monitor that allows developers an insight into the terminal's and web operating system's application layer. Only communication with the web hosting provider will be available. Select Application Layer will allow users to report application issues to the original software designer. Only the code and data associated with the application(s) listed will be accessible. Only the certified software designer can inspect, update or modify the application session. The first issue to solving an application specific issue will require it to be duplicated. The system will provide the necessary monitoring information to the code debugger. This will be the most common access layer.
Investigation mode will allow only communication from the registered web hosting provider. The mode allows low level diagnostics to be performed. Officially Certified Investigation mode provides third party representatives with low level access to the terminal. The primary attributes of this session type only allow physically certified keys to be used in low level diagnostic access. It must be a new key, one gathered. An already growing service industry will be more secure. Typically keys should be sent in sealed packages. Each of these modes cannot be scripted by automation and will only operate by strong initial user authentication. The system will provide detailed rollback analysis of any changes.
The system encompasses the many forms of information about the various equipment directly in contact with the user. The keyboard, mouse screen, audio jack, flash memory reader, lights, power button, embedded hardware and any other connected equipment. A large range of characteristics about each device will be recorded. Thus including: physical properties, ware and tear, physical attributes, low level agent diagnostics, device identification, functional state, last accessing programs and related programs.
Issue resolution will be dependant upon the terminal's adminstrator. For example, the keyboard has a way to report a broken key on the keyboard or video display issue. If the system is handled by a group administrator, perhaps there is a spare keyboard that the individual will bring and plug in, within minutes of the notification. If it is a personal home user machine, directly in line would be listing local repair shops, and new keyboard distributors. The resulting rule based server based engine will be filled with thousands of sceneros that are executed in distrinct ways.
Physical buttons within hidden compartments can be used as ultimate insurance of hacking these rarely used low level diagnostic tools. While the INET System is specifically designed to guard against public intrusions, because it uses technology that is within the physical science realm (consumer), that is network cabling and microwave transmission schema, the ever useful matter occupying lock is an excellent choice to include witin deployment capabilities.
VLISM namespaces can be unlocked within a button's reach. This type of locking system will ultimately be dependant upon the geographic location of the terminal. The same functionality can be sought by using a special terminal USB data key. Using unrelated technologies such as metal keys can also be implemented. However, in both circumstances, these keys can be duplicated.
Using INET VLISM Namespace Locking technology in an open format such as buttons that are placed in a grouped separated area within the user's computing area is also important. On some devices, the lock button may be located away from the keyboard entirely and nearer the display area. While on others it may be located upon the CPU housing structure, keyboard extras or other device. The ability for VLISM namespaces to be insured functionally inoperative and then active for a given duration will be important for secure internet computing. The electronic operations of the device will have to ensure this. Apparent within ordinary use would be incorporating specialized memory status management used by the application layer and port reading facilities. The port must be read only to most functional equipment, While securing the write operation through electrical path. Only the physical user interface button should be able to modify the state.
All queries of information to this address, thus including parameters to the BIOS functions will be caller certified real time to validate proper error handling by an application; validated So if invalid requests are spoofed by a virus, the status will not get reported incorrectly.
Imagine you are using your cell phone as an electronic wallet. At present you are strolling along with forty eight dollars and sixty three cents stored inside. Because the financial transfer button located at the top right of the LCD display is not depressed, no funds can be transferred or erased from the device. The button is designed this way. The erase or transfer fund instruction within the CPU that operates upon the electronic money memory will be nonfunctional. Other aspects of the memory's integrity for holding data will also be present due to this fact in operation. The port's information must be accessible to other hardware within the BUS. Other object based electronics incorporating agent based instruction sets will react appropriately to secure their domain. However, at this time, the device may be asked to report electronic money signatures to validate legal electronic tender. These are read requests and signature calculations.
Interfacing with the subsystem component should be very easy for the user. A reference should be associated within the main task bar overlay. Video overlay functions will ensure the iconic spot is shown on top. The correct interrupt will receive the event that is denoted by the polygon structure. The system will use the same internal pixel map hardware window manager functions used throughout, but have high priority focus upon the terminal. Since many operating system vendors will provide operating systems, the subsystem component's focus will be a standardized component that is certified witin BIOS marketing.
A count of software usage and access information can be used to investigate and track progress of information change and development. For example, a user spends time making a movie or digital experience. At some point, a user will want to know how long a task took because they have a similar project. Access to at a glance statistical information consolidating the period in time during the use of the computer terminal, operating system, and user identity is more accurate. This is so because the details of the task, what was 'learning', what was the 'first time try' and what was 'actual work' is difficult to analyze. If the user can page through previous uses of application usage by playback to highlight the details, even processing power usage can be summarized. Providing the logic and space within the UI for easy time based accumulation using a marking system (highlight) will provide the data drilling necessary. Projections can be based upon this information.
Some configurations may require cost effective storage solutions to be used by a given group of people. Libraries are a prime example of how this is necessary. However, in modern computing, utilizing hard drive quotas distributed by protected identity or temporary protected identity, requires third-party software. Consider the functionality and application data mapping needed to allow a user a ten megabyte account. The account will expire after thirty days of non use. Users will have to use the library machine for it to count, not remote access. Within the computer network, the account can be accessed on a daily basis and the drives map corresponding to their library card. If users do not have a library card, a guest pass is issued and will require a different setup for the quota drive, user name password combination, location wafer or a USB security key will define access. Balancing the data for read and write performance based upon statistical use can make the system more friendly to use; a nightly task. As well, the cost advantages are greater because a specialized server for this centralized storage account purpose is not needed. This is a cost savings. But most of all a resource savings. This distributed, balanced quota feature will also be of great use many places within the industry. Something now is its own server.
This data occurs within the WEB OS model as a meaningful entity. Considered attainable for life protection with a quota and respected sanitation after centralization has occurs. The network file system with distributed quota management dedicates algorithms to tie repositories together. These repositories and their priority of ownership can vary. Creation of the ownership rule or home base repository can occur at different times.
The user is able to access their own or private computing resources from any terminal by inserting their USB terminal key. Public terminals allow the terminal administrator to set privacy issues that effect projected content on the public access terminal. For commercialization references, a software rating for the Web OS market will dictate compliancy level; Web OS Content Filter and Purpose Fulfillment Compliancy. In short, administration will allow management of these resources from a centralized host. This is important for both business and consumer. The system supports direct vendor server deployment for developers and users.
Many facets of music production are assisted by the use of computer technology. In fact, many studios would be out of business if they had to rely on older technology alone. Recently, music composition, that is the actual rendering of the audio musical notes, has become available on the Personal Computer. Programs like Acid, Fruity Loops, Adobe Audition, Reason, and Cakewalk all facilitate this new technology of audio rendering on a client machine. Limitations still exist when using these programs and that is a reduction on polyphonic notes and sound quality.
Ever heard the Korg Karma play an electric rendering or a TRITON EXTREME render a symphony? The depth quality is far superior in many ways than real time synthesis on modern computing platforms. A keyboard is a highly specialized embedded device, and many would go further on the description. The new forms of software rendering using VST, a plug-in format for the software render, limits much quality on output. Only specialized settings and professional products come close.
The VST model is extremely flexible in implementation and as a pooled resource on a mainframe server, a group of them would perform well and allow for higher fidelity digital descriptions. Higher fidelity is achieved using mathematical models that produce more unique and detailed data. The encompassing system will provide higher density products (sets) to achieve high resolution audio, large storage library of analog sample data (RAW, WAV and Synthesizer Specific) and more logical parameters to achieve unique segments and compositions. Samples drawn from the audio system can be ahead of time provided that the loop midi data is present. The resulting sample will be used in place of render to save CPU time.
One of the main purposes of the INET vision is to offload computing power and resources to external devices using network technology. The highest quality sound setting does mean expensive clock cycles on your CPU. By offloading the rendering of the audio signal to a remote network resource, higher quality and better scalability can be achieved effectively while controlling costs. That is, controlling costs for the manufacturer and the consumer at the same time.
Modifying modern audio synthesis components to be a networked resource will not be an easy job. Playing audio is an extremely time sensitive task; one millisecond off and it could be an entirely new sound. Most modern keyboards respond to and send MIDI data. MIDI stands for Musical Instrument Data Interface. MIDI is a condensed binary format that describes several characteristics of a play note as well as containing a plethora of commands that are used to modify musical equipment parameters. By sending this information through the Internet, using Universal Data Packets (UDP) for example, the receiving computer could route MIDI enhanced (Internet) commands to a rack of sound bank synthesizers which in turn will output a raw sound wave. This raw wave form will be routed through the host's internal high speed network for further processing.
Time to loop or segment audio is a factor when playing live. The product series will provide a localized hardware solution for this functionality. With the INET System, samples for all offered keyboard, drum machines, synthesizer, rack device or your own samples are loaded into the INET Universal Synthesizer; a real time high performance synthesizer. Supporting up to 8/16/32/64 notes polyphonic depending upon model, a new synthesizer emulation can be installed on the road in minutes; connection download time.
The INET Universal Effects processor will sample four or eight channels and offer to mix out real time; fiber optic or analog. Supporting lengthy effect chains using a hybrid approach of machine code and DSP hardware is one of the device's most becoming features. The hardware can be controlled naturally within the Musical Keyboard interface and by user interface on the INET Smart Terminal.
The Live performance product series includes a digital sound event manager (INET DSEM Live - Digital Sound Event Mapper) for live show synchronization. For example, employing the use of gigantic robots can be a powerful entertainment experience. The movements and craft of visual arts will surround themselves within the motor gear control cage kit. The system can use large ray traced graphics, environmental effects (fog, etc.), standard video, standard stage craft electronic interface equipment signals and switches during a performance show that will bring new captivity to stage dynamics. Specialized stage software can be used to produce a simulation. A simulated view of the presentation can be mapped upon the screen to show the entire sequence unified for better planning. The robot, a sturdy metal cage can be dressed by the renters however they so please. Specialized, software allows the dress to be designed. Fabricated with plastic and the proper painting, the robotic dress is intellectual property and copyrighted. The dress fits upon a specific model of live performance series. The INET Live Stage Craft is a visual publisher, instrument monitor and events controller. Want fireworks to happen on the sixth snare hit? Set up the rule and sensor programming within the show's context. The system includes events to power a three dimensional animation engine for audio synchronization. These properties are easily accessed using interface technology. The plug and play architecture allows integration with existing stage electronics.
Digital CD quality sound in raw form actually has too much data in it to be transferred over the web in a real time capacity. Just one second of high quality CD audio in raw PCM form takes two channels * 16bits (or 24bits) * 44100 and this equals 1764000 bytes (1.7mb). That is more than one floppy disk just for one audio second!
A compression must be used for near real-time play back when using a the Internet network; currently an electrical based networking solution. By routing the sound signal to a network audio compression unit, the information can be reduced for the given real time Internet bandwidth limitation. However this is not to say that near CD quality cannot occur. Modern streaming technologies are a testament. High quality can be achieved for near real time live broadcast.
Effects processing will also be a part of the instrument setup or a channel layer depending on the composition requirements. This will happen before the signal compression resulting in the highest logical quality. The network flow control of the audio data on the server side should reflect this. A network audio effects processing unit will perform its operations on the raw PCM (pulse code modulation) wave form. The potential for a limitless network based audio and video studio exists distributed to an INET VLISM compatible device. The device, because its main purpose is music production may have sound loaded and have a small music keyboard input device.
Sound in its natural form is an analog resource so the capacity to transform audio using a high speed DAC (digital to analog converter) for analog audio operations such as tube amps could be a combination. This may also be needed for some analog synthesis technologies and a hybrid step to integrating current methods to the process. The signal will need to be sampled from this analog resource back to digital PCM data. It is important to note that the possibility of signal interference may occur giving the artifact of noise.
Finally the stream will be reduced for the requested medium transport. An audio compression network unit must be designed for the task. When the audio stream has been reduced for Internet transfer it can be routed back to the client computer. The client computer should store the sample along with the associated time stamp and mix the audio in real-time during local playback. The end result will be high quality sounds at a low CPU cost. Most central processing units over the 1.0 GHZ range can mix several audio channels together without any problem.
All of these audio operations will be controlled using preset values while being overridden from values contained within the connection stream. Applying pooling technologies with a rack bank architecture will be the live performance goal. This new form of connectivity should not prevent plug and play of synthesis technologies at the local domain; a network plug device to an INET VLISM smart computing terminal. Also building a specialized hardware server computing platform (mainframe) that manages user MIDI state banks, provides audio synthesis, and manages storage for the sample will enable high quality creativity at the consumer and professional level will using an INET VLISM smart computing terminal.
One thing that is an interesting side effect of this vision is that now audio synthesis banks are reusable as a network resource. This adds a new level of resource allotment, procurement and could possibly offset accounting principles of music equipment. Can I rent the Mars network for two hours while I render my tracks? As well, it presents the opportunity of synthesis resources being located globally. So for example, the system could play German, Russian, and American synthesizers all in the same song. As far as I know nothing like this project has ever been completed.
Music production in modern form is set upon a time base where events occur at a specific time. At a desired time set by the composer, audio samples may play. Given that this functionality of production is supported by the INET Web OS Audio API, pure flexibility of music production, the individuals sounds, effects, patterns and play list will also be supported as a textual input.
There are many things that can be represented within the context of time and pattern composition within text. Sample banks adhere to event firing based upon a toggle switch within a time based event storage data structure is the defacto interface. Representational of a drum track hit, could be a string of characters as shown below. Expanding upon this readability will lead to using other similar characters that are common with note formatting. Notes can be represented using the standard letters, ABCDEFG, along with sharp and flat characteristics. Characteristics of the note should be defined schematically using object form. The octave can be defined using a numeric constant next to the note letter as is common is form. There is a default octave used for composition. The length of a note is very important. Describing it in standard beats per second and actual time is accomplished within the textual syntax specification.
Modern synthesis technologies have numerous parameter data that is attached. Reverb for example, can require at least five parameters. The parameters, when the object is compiled within the INET Text based music environment, are defaulted to logical settings using OOP inheritance style when all parameters are not specified. For VST, these parameters can be stored in a FXP or groups of them in a FXB file. The use of this OOP style makes it easy for less experienced text composers to achieve sensible high fidelity. For example, defining an effects channel can inherit from existing configurations. Providing a loose syntax parser of the music information is important for broad audience distribution. See Audio Programming Language for more information.
The language will allow use of VST objects for integration within current platform technology. Loading and activating a VST for Effect, signal processing, or sample render is achieve through the symbolic name for easy reference. Naturally because these items are objects, the methods and names may be of some use. However, given the nature of programming, a relational data dictionary containing namespace segmented logic paths will be of more use to allow English traits.
Audio production within a context such as this can be considered a technology that is representative of a wide range of information. Classification takes precedence for any logical searching. Groups are represented by quality of synthesis, accuracy (depth, realism, simulation), and algorithm used. Samples can represent an instrument's major sonic qualities. These PCM based data packages are captured and labeled for events. Specific events or controller attributes use these pieces to reactivate a natural instrument. Different stages or meaning is reflected within the midi stream. In hybrid synthesis technology these parameters supply note (music notation) and sensor readings. The ADSR envelope (Attack, decay, sustain and release) standard controls several functions of the note render. The information can also include the volume level, pitch bend amount and after touch readings. specific lengths of time also effect the breath and depth of the instrument.
Instruments are classically group into categories like: electronic, environmental, sampled, keyboard, string, wind, flute, picked, strummed guitar, and percussion (see Musical instrument classification). Within electronic and other sythesized members, attributes that align the signal based upon frequency spectrum to an information domain are typical: Bass line, lead, and chime. Because there are many more instruments that are simulated, the classification takes a more fictional approach sometimes. Searching for instruments within a catelog will be an API standard that supports audio pallette. An audio pallette is important for instrument selection because it give the composer a preview of the signal. Signals can be previewed in a specific octave and with several characteristics. The information is supported for textual web note rendering; the catelog may operate using XML record sets for ease of display.
To control rendering parameters using word will be instrument and group specific. The additional information will be best suited as an adjective or adverb. For example, the phrases "play piano clumsily", "strum guitar cfg", "pick guitar acd", "panic", "straight". or "child like" affects each of the ADSR envelope attributes as well as other intelligent audio attributes. Tthe classical style play verb is suited for many instruments. How the information is intpreted is localized to the instrument; classical panion and classical guitar for example. The search for parameter settings as derived by the compiler will be based upon OOP technology inheritance. The descriptive object modifier, if it is near random based, exposes parameters that act as an algorithm seed. Because performance needs recreation, the precise parameter setting will compute the same results.
The INET Volumetric Physical Simulation series of VST instruments push the technology envelope to include more descriptive audio signal composition that cannot be made with electronic equivalents. The acoustic guitar is an instrument that can be described in this way, a road for many musicians. You can strum, pick, twiddle, tap, pick tap, hit the top, strum the face and even break a string. Playing attack styles that are common to professionals like Eddie Van Halen could be programmed to some extent. Violins are also very versatile as well and can be model within the system. The system uses physics to model the environment to at an very detailed level.
The microphone placement and sound stage setup can be described in using natural composition. Adhering to common materials within simulation mode and dimensions for room, cave and pit sizes will be informative to the audio simulation modules. This is important when defining stage size or recording room size. Positioning the microphone upon an instrument is typically based upon the type of instrument. The microphone can be mounted upon the chassis of the instrument or set upon a stand in front of the instrument.
When more descriptive information is needed during the interpretation of the musical notation, extra information within the edit text will be tied to the block. This will make a text compatible editing of notes and time. Recording through a midi device, event editor, or using the in line staff editor will translate this information. However, of most importance is the textual nature of the musical description. Because more precise information is given about the note, a separate block can be used that contains the timing information. A typical data segment style may be sufficient.
The flexibility of the OOP style parser will be inclusive of many formats, not adhering to a nailed standard form. This is different than most logical computing languages. Including professional layers that provide syntax for verbose descriptions is important for the acceptance of the tool as a construct. Advanced functions that provide logic for pattern loops, toggle time base, time frequency functions, sample editing, proportional relations, additive and geometric functions are included. There will be several formal syntaxes available. The loosely fitting grammar will come through by incorporating use case testing and allow simplified content production. The design is so that the tool and learning from it can grow with the user from many different age groups. Inputting just note text will provide audio output. An inexperienced musician can play a String quartet.
The lessons of music from an illustrated point of view can be transferred using audio composition and paper. Two artists come together for a jam session. During which time, they practice, learn from each other, and teach. In a class room environment, students will receive more formalized training. Yet in both of these circumstances, using a computing device while holding a violin, or guitar is difficult. In these environments, a scratch pad can be used. So textual format, allows transfer with pencil and paper. This is useful for younger pupils where they seek the knowledge of what sounds good. There are several formats that are accepted using OCR. Key notation - CFG, or staff musical notation. Other items that effect the rendering characteristics can also be placed upon the page. Beats, BPM, instrument selection, short hand repeating bass lines (refer to by symbol later), slides, and vocal composition lineup markings.
A dictionary defines the path and location of the object and its parameter set. Several dictionaries can exist that define a total synthesizer implementation. A short name becomes the symbolic name of the instrument. Instruments are loaded upon a channel, and can use one or multiple channels (stereo). Several Instruments can be attached to a channel with varying effect chains. The INET text based music API will provide a flexible solution to polyphonic rendering using a VST, sample bank or midi instrument. Because rendering is done in offline (not real time), the number of channels can be greater due to compilation methodology.
Sound as a wave form has many characteristics that can be modified. The system will also provide a language capabilities for digital signal processing. Sound DSP functions that output a wave transformed can be reused and mixed within other buffers any number of times using an object name paradigm.
An important facet of text based music production is the ease of composition. This limitless approach to polyphonic composition can exceed simulation qualities that are very expensive in synthesis form. This will spawn a new human cognition of parallelism relating text based note notation to parallelism in audio. The aspect that the buffer input is textually (8bit ACSII or Unicode) based will preserve transportability for network transmission. The format will be easy for text based authors and those that use a musical staff. Some may expect that XML be used, yet, a flexible text structure will lend itself to a more broad user base. One important aspect of the format, is that it must not delude uniqueness of the pattern and signal. This is to preserve creativity as an art form. This technology can be used in many content production engines.
In conclusion, the future of looped based music production is a network based solution because of resources. One that is versatile enough and consisting of open source architectures to allow world wide distribution. This does permit reuse of many resources and this offsets costs for the user and manufacturer. The network based audio system will be designed first as an API resource allowing definition of patterns, tracks, effect parameters, musical data and other effective parameters. By using a distributed synthesizer audio source as a pooled resource, modeling an orchestra set of violins can be more realistic provided that the subtle human variances are accounted for in the parameters amongst the production engines. Imagine the Krell network lighting up all the way in a 1024 polyphonic compilation on a device that is almost disposable.
See Also
Audio and video processing on the INET WEB OS platform encompasses critical support of associated digital signal processing using OOP API library support. As well, visual special effects, film editing, time line synchronization, project management tracking specific to medium production, work flow status notifications (segmented group works), multiuser segment locking, audio DSP functions, and plug in capabilities for third party enhancement are included.
Audio information will be edited in compressed form on the local smart terminal; if the terminal supports audio, while the high fidelity format on the server maintains parallel state. Service for integrated device consoles such as mixers and wheel controllers for cueing, time and splicing will be available. see Digital Audio Workstation - DAW
Video editing will be performed in a similar fashion to audio. The visual streaming format will supply details as desired allowing for high color range and high pixel ratio media format support. The native format will be the .aii video file format. The user should have the capability of importing and exporting common format audio or video format files.
Providing the ability to associate rendering preferences of an audio clip will instruct the cache management system to store the transformed content. Associated preferences may be soft-locked for future broadcasts. Soft-locks do not permanently modify the signal. Soft-locks work naturally within the historical and hierarchical digital data object file system.
In the user interface context, soft-lock means that the settings are recommended within the audio player user interface. Soft-locked preferences will be embodied within the initial stream qualities when audio is activated for listening. Users can override these settings using the appropriate interface components. Internally, the soft-lock relationship inheritance rule also includes the licensed ownership policy managed within the Digital Media Rights Management system. When the license owner specifies a soft-lock filter setting, the relationship is preferred when new users listen.
Guest users can set their own preferences using soft-locks. If a guest user listens to an audio clip that does not have soft-locked preferences, they can set them. But these settings do not affect render operations when the license holder tunes in the audio file. That is, the soft-lock does not explicitly propagate backwards. In this case, the guest user settings will be known by its inclusion using a menu selection status thereby acting implicitly without tarnishing the initial audio stream. The original factory stream will be transmitted first. Bad guests would otherwise have the opportunity to play practical jokes. For example, setting the high frequencies to high or making the vocals sound like a chip monk.
Policies of DRM are maintained for multiple listeners, only one output device at a time or for the license count. Soft-locks can be stored for a specific device or transducer setup. Two versions of headphones sound differently. External speaker qualities can vary greatly. However, in general, metal and rock deserves to be played at a higher amplification level. Soft-locks are supported for both audio and video media. The information is stored in a private database and is used by the stream rendering system,
The audio stream renderer works in a similar fashion. Providing limiters, frequency band equalization, signal dynamics processing, and amplification upon decibel scale for audio in a pipeline queue will entice audio listeners. The highest quality sound supported is Dolby stereo. The quality of network service effects the rendering bit rate. Optionally users that wish to enjoy the highest quality sound over a high traffic network can employ anti-audio skip buffering. Before the maximum bandwidth headroom is consumed, the advanced buffer is expended.
The buffer size can be controlled logically by the user. At times, users may know that connections are bouncing within their area, and request a two minute buffer. An interface will suggest and allow entry of the anti skip buffer time window. The buffer is also calculated automatically by capturing the amount and variances of time out spikes. The automatic buffer window size calculation will include historical information captured by the quality of service manager. Capturing the distance from the source, the network time-stamp and the network saturation level will provide more accurate automated buffer length calculations. So as the user listens more day by day, sound and audio will be less likely to skip; ever.
Content can be controlled to perform the highest quality of response by instructing the audio render-er to increase the amount of loss during compression. This does not affect the original audio source. Because the audio streaming API also supports editing facilities for owned content, two audio streams are maintained to allow preview sampling. Owned content within this capacity integrates within the Digital Media Rights Management system. Owned content can also be the product of music production software.
Audio sources that are managed yet allow segmented copying will maintain a relationship stack to the orginal source. This will provide sound effect studios a tracking method to also facilitate while you listen financial processing. The orginal owners of sound effects that materalize within a song for example, can recieve royalty payments upon sale, or listen. This in turn will open the door to professional asset usage by initially an armature. The INET Software and Digital Data Store Business System provides the facilities to effectively manage licensing policies.
During an audio editing interface, editing parameters and subsequent function states are reflected upon the server to exercise maximum use of network efficiency. The parameters held in state by the INET Web OS and INET VLISM Spider JIT support are supported using a stack and its associated operations; pop, push. If the audio stream is used in a tool such as a loop sound mixing studio where audio is played repeatedly, a specialized multi-source channel can be created. Repeated use and listens of an audio clip will clarify until the client threshold quality is met. Changes to an audio mixing channel will be reflected back using incremental audio mixing. If the audio mixing channel is modified drastically, the clarifying process will reiterate. It is unknown if Huffman compression will operate effectively given that it is bit level.
A musical inspiration is usually accompanied with physical activations. While driving you can see many forms and examples of this behaviour. Individuals may be seen with thumbs tapping to monstrous bass rhythms, fingers clicking at the snare or using the index fingers with rest of the digits for fictional notes and rhythm play. Using visual recognition technologies as input will captivate, strengthen and propel musical creativity cost effectively. The INET Camera Tree with motion activation will automatically align the cameras to the best viewing position for the scene.
Playing an instrument can be as easy as drawing an outline of a piano on a piece of cardboard. Presto, a grand piano or other instrument sound will be rendered real time. A child may wish to draw a series of circles of varying sizes upon a cardboard paper with textual labeling: snare, bass drum, and hat; a drum machine is made easily. The number of input devices can be almost limitless using the camera tree. The INET Camera Tree is also used for other software applications that use gesture recognition. While the camera tree automatically adjusts the position of the three cameras, a single camera can be used. A single camera setup may only be able to identify duration and note but not attack, velocity or pressure.
To create new instruments and forms of tone control would be a likely experience. The visual recognition algorithms are dynamic enough to read color codes that may be within view. A person could where red circles upon their shoulders, blue dots upon their finger nails, and orange upon their knees and feet. Making a one man band from weird gestures will likely require instrument rules. The instrument rules section, a logic instruction table that is scanned (executed), defines how gestures are interpreted to develop sound (notes).
Audio editing and render buildup functions can be specified as an audio editing script. This will allow mixing, effects processing and musical composition to be played as it it were logically an audio file listed within the play sound API function. For Javascript browser functionality or other web based systems, the will provide inline capabilities using server computing for stream production. A consolidated audio command string can also be positioned as sound API parameters. A functional implementation exists for full script transfer or abbreviated tokens representing the render stream commands. E.g. PlaySound('Funky.mp3', '\uDefault=(-normalize -declick -eq -20hz+3.4db_250hz+5db -800hz+4.3db_14000hz+curveDistribution(2.4,4.4,6.5)) \s(Background.wav, Hatszx2.wav, SplitFunk.wav, Song.midi) -Default(all) -render(1,1,1+2,1+2,3,3+2,1+2+3,1+2+3) \omp3 -stream \oauto -stream \ncache(/usr/WebOS/Funky.mp3)');
Multiple production processes (story board, film story vignette time, scene script, from book, dictation video recording, multiple location venue change, review, alter) in studio film digital development, production, and testing are supported throughout the asset creation as a project stream. Batch processing of frame and motion segments using story part templates with historical based editing is also supported. A strong support of recommended video and audio editing techniques within base API architecture will provide the software developer with choice tools to build upon.
The capture of video and audio should be accomplished using standard equipment. A device that enables upload from the camera device to a central server with security enabled will be effective. Satellite, ADSL, LAN, fire wire and wireless are among the connection portals.
The use of special effects developed using CGI technology is important in modern film making. The configuration, render and composite of these assets with real color video incorporating stenciling, masks and object selection is supported. Since the INET web OS model employs various ray tracing engines, the configuration of the CGI object or CGI effect within the film space should be dynamic during the production cycle.
More complex than at first gander, the outsourcing of specific CGI elements within a visual creation is a high probability. Digital Domain, Industrial Light & Magic, Rainmaker Digital Effects, Rhythm and Hues Studios, Weta Digital, and Framestore are some of the most popular visual effects studios in the industry. INET SoftSpot Technology will be an execellent format fit.
The INET SoftSpot allows super settings upon the object and precise CGI graphic configuration. Configuration of audio with inline DSP (preview and high quality) processing will reduce frame production time. The supplied CGI element manager will also account for network leasing of the visual object. Specific to some precious models are appropriate render engines (radiousity) and software shaders. The product managment of owned CPU farms and secure farm rental is mission critical to CGI. The ability for providers to publish available time would be integrated within the system.
The workflow modeled using the INET Web OS API provides group connectivity. As well, direct communication between two parties using the INET Web Live Multiuser Collaboration, even for CGI SoftSpots. If the CGI SoftSpot contract does so provide, the asset is protected from misuse and abuse; a lighting effect is registered for three minutes of film. Or the digital robot, a secondary yet very interesting character, can only be used in one film unless the contract is renewed.
Common CGI elements and special effects such as gun fire, lasers, clouds, dust or other special effect particle systems also have impact upon the film or video quality (fiction and nonfiction). The audio attributes and visual traits are communicated with the INET SoftSpot object. The database is available for precise configuration. Integration of these items into video production user interfaces allows interchangeablity, portability and ease of implementation. To decrease the amount of time for completed processed frame data (visual and audio) considered in production for editing preview and large scale image is the goal. Snap and puzzle CGI.
Because the editing suite is network based, globalization of asset capture, source tracking, work flow monitoring (status) and production editing must be forefront feature technology that saves time. The low level system is designed to save time in all stages of a product by offering preview first with batch oriented high quality frame render as a secondary step. The resulting series of video editing interfaces are designed to save time. Within the interface domain, it is merely granularity of control that are noted as high level.
Imagine a talented writer and storyteller designs a desktop to tell horror stories. With this genre of film, attributes such as lighting and environmentals upon outdoor scenes may be common. Rain, thunder and lighting propagated in the style of Frankenstein. The ability to craft a story with proper visual diction would be learned as a process. A dialog scene handled with correct posture by showing the appropriate camera angles and dialog time length. The field will be more educational and endless for story tellers.
Research of a feature list must be accomplished in advance for success using production studio resources for both software editing and core API design. The portability of the platform itself will offer comfort and damage free historical backup.
Its no lie that video games are a revolutionary form of entertainment. The amount of time it takes to complete some games are months. More complex experiences can take years even with a large project team to finish. Yet, with Internet server technology spreading, it is a surprise to see self reliant console platforms. With delivery from a server environment and the proper hardware resources available on INET embedded device the interactive television era can begin.
An Open Game Engine on the hardware platform will handle the render and playback of the stream, this is different than a basic INET Laptop; it has the game engine and hardware. Computer Animation and game gear mechanics available in VLISM Web Server OS format will allow priceless new forms of education, creativity, books and puzzles
Smaller three dimensional graphic chips with standard vertex and polygon cache geometric engine for cell phone, laptop or thin desk INET smart terminal will be possible due to server processing. Since memory load, animation function dynamics, and cinematic playback are the result of server processing many types of resources can be managed more effectively within the game hardware itself. The compression affects and streaming video playback operation will be complimented by the lower resolutions of cell phone screens. Some of which lack processing power to render an anti-aliased texture. But with server processing it is capable.
Most items in the field of view (FOV) will be reduced to polygon animation, object AI or two dimensional animation using LOD reduction techniques specific to the object format. Precise polygon and triangle clipping will be performed on client if the appropriate hardware exists to prevent judder. Rendering textures, light maps, smooth curves, polygon models and NURBs into a frame buffer will be the product of a stream residing on server or client depending on client configuration. A network object oriented Particle system will be included.
By balancing a cache of world space items using stream composites of intermixed objects including: game AI, models, assets, physics, world definition information and sound into a compact stream format; the Internet driven game revolution can further. It does take some time for a user to complete a section of the game puzzle before continuing, the available memory will be taken into account on the server to effectively manage the cache on the smart game terminal. As the user moves, other facets of the game grid will be downloaded, when parts of the game grid are out of memory cache focus, they will be deallocated on client machine. This aspect of cache management will be a major goal of the INET Web OS Internet game engine as well as executing functions that predict what game data are likely targets for download. Prediction can be perform on the server given the x,y,z,w (or estimate) location of the view. Since the hardware on the smart terminal will handle the Internet buffer management, CPU and animation will not be overly affected. The result will give the feel of limitless worlds to explore and solve.
An example of Internet compressed game data would be using a triangle reduction algorithm to compress initial model load. Triangle reduction must be performed on a weighted basis, being careful not to augment a human face, for example, when limbs are more likely targets for reduction. By identifying index locations of model insertions and render pipeline instructions, the scene graph will be managed from the server after initial load to balance the cache based upon "lazy cache prediction algorithms" using the camera vector. Sprite management will be integrated into the server stream as well. Floating points converted to screen coordinates or large numbers where appropriate for transfer by the server will consolidate network bandwidth as well. New transfer technology may reveal model compression algorithms through incorporating sorting, weighted LOD triangle reduction and mathematical relationships describing angle of incidence with joining neighbors. A specialized package may develop ten triangles with smaller data. This is an argument for polygon and bspline curve transmission.
Including high definition three dimensional video play back will allow refinement of cinematic content, non active content with cycle AI brains. The popping point within user focus computed and balanced. It is the transition period for models from level of detail streamed animation billboard state to metamorphosize into triangle model data. Dictionary based polygon vector relationships will provide room for compressed function parameters during the transfer. The dictionary will be built in stream using computed cache data derived from three dimensional scene compiler analysis. The ability for the arguments to reform shapes upon the client can serve as a reducer in transmission bandwidth. Level of quality can be controlled within the modeling application as well as within the scene-graph bit-stream. Utilizing any form of texture mapping association with the two dimensional billboards data will increase through put.
Content that is predicted to become active is placed into the appropriate buffers upon the server and ray traced graphics are com-posited into compressed frames. By identifying frame change pixel statuses in conjunction with rotation matrices and base lighting augmentations (2D light-map), the storage and transmission of a three dimensional objects with back face culling information is accomplished.
Frame by frame billboard animation data is incorporated within the .aii streaming image file format. Internally, within the scene-graph game platform, the formatting systems held by multiple asset domains (video, model, sound, texture, world map, physical condition, environment description, rtc.) will have a high performance index access. A unique file system description will enable tuning the references to this asset. Offering solid name (old style file name), long name, and fuzzy noun match will ease the burden of searching. The index is used to increase the capabilities while reducing complexities of communication during computational distribution. Data structures within simulation, fictional and entertainment application language syntax need less complexity when integrating and indexing objects. Syntactically this will broaden publisher base. Performance wise, this will ease the creation of various stream compositions.
The .aii format is included as a basic image format and thus opening the scene-graph's capabilities of easily managing a relationship between ray traced graphics as an asset and model data by keyed identity. As a result, higher definition video and higher frame rate games can be accomplished more often using fewer resources. The game artificial intelligence design can modify more worldly items; perhaps more than humans can withstand.
Management of the three dimensional video will be accomplished using the INET Web Server Ray Tracing Visualization System and its integration with the .aii streaming format. Incorporating many video formats translated while supporting keyed color transparency will broaden the input forum. Algorithms that analyze several segments of video can translate the objects within the frame data to textured polygon and organic nurb models. Providing skeleton mapping within the modeling application will smooth the transition process. Identifying the scanned items with nouns can be a human task, selectable from a database of forms. Applying geometric and light transforms to integrate the alien content within a world can be automatic and adjustable. If content has highly elevated values of luminance, the textures and vertex shading colors can be ramped to usable tolerances using a normalization algorithm. However, matching lighting characteristics can be difficult to provide automatically with precision within all scenes. Sometimes, these aesthetic values are best left up to the content designer.
An open scene graph system that manages a world, an INET Stream Buffer, and a field of view will serve the basic network visualization stream system. If the device supports only two dimensional view, that is no three dimensional video processing on board, the normal stream consisting of triangles, polygons, and compressed dictionary model shape stream are translated at the server. The information crosses the wire and is ultimately translated into two dimensional Block Image Transfers blits. This will provide one of the most cost effective hardware constitutions while yielding a colorful visual theater. To produce a compatible experience for the device is the memory management association that the Web Server OS will deduce for devices like these. The resources that can be used on the machine are known based upon the device identifier established at connection time.
The narrative portions of interactive experiences can be controlled using a flexible stream format. The category of acting will be applauded by providing precise polygon stream (shape compression dictionary included), animation logic, local state control processing and audio formatted data. User device interface polling logic is included within the stream format as well. The audio stream, a combination of events, is a composite of the necessary ingredients as implied by the environment. Mixing of audio can be accomplished upon the server or intermingled with segments cached upon the client. Linking the Articulatory Synthesis to the skeleton will increase productivity during story telling adventures. The technology also provides a deeper format for story telling and characterization. It is hoped that a story boarding tool will operate within this capacity. Even providing an easy English format for room, hallway, and cavern description can be foreseen as an avenue to explore (see Holodeck).
A media product creator should be able to link these segments together to form a game structure easily. Including film quality cinematic transitions, introductions, royalty financial processing, story flow models, puzzle or mystery modifiers, and other sub content structures will give new found freedoms to writing and model editing. The media product can also refine the acting produced by the compiled text animation. View upon the client, that is the playback operation, will use models if they are loaded, or provide the least amount of vector transfer on an as needed basis from the server. Some game engines on the market use scripting within their payload. The system also utilizes the shape dictionary held and balanced upon the client for stream compression.
Physics are a major portion of automated logic and animation that will be included within the INET Game development suite as a container property. The library will also contain digitally compressed motion data for numerous skeleton and joint operations. This will ease many forms of character creation for authors. The motion library is indexed by model and verb. Several motion data sets can be applied at the same time to provide the most versatile feedback. Relating foreign rhythms of motion data is acceptable within the creative bounds. Using signal compression schemes associated with motion data for Internet transfer is understood by the world management system.
Better game gear does have more flexibly, yet a compromise is made at the server level to consider the level of detail upon all models within the field of view. Models that are closer to the viewer will have a higher triangle count compared to models that are in the distance. Models in the distance will likely be a composite from three dimensional video within the stream, or blitted from local cache. Because the system is designed this way, most INET devices will be able to display content of any game, old or new. It is only the frame rate that is varied by device attributes. This is something that all media developers strive for, high performance and platform independence.
Most game companies do have their own game engines. It will be a robust object oriented game engine that will allow integration of their offerings within the INET platform. The Internet Game engine will be a scenegraph management system for local/remote and it is flexible enough to allow third party enhancements for competition. Development and debugging processes are likely to require specialized tools, different from standard INET development debugging. If designers and engineers can accomplish the task effectively, advancements within the developer tools themselves to allow embedded debugging. Game engine editors are specialized tools that produce and edit binary streams for a game engine. These editors allow import from three dimensional modeling applications. Game engine editors are specfic according to a game producer's private design. The game engine will be robust enough to allow polymorphic stream load yet promote the INET standard stream for compatibility amongst INET smart devices. The INET system provides standard and open file formats for world definition, three dimensional models and textures. While each of these formats may actually consist of several files or data objects (local / remote), a complimentary binary stream format exists. The content publisher's data will be protected under the DRM section of the operating system.
Game publishers must be able to control hardware specifics of video cards, audio cards, and human input devices, yet the INET system must provide good security to the user. These hardware access instructions are part of the VLISM namespace. Other game multimedia functions such as high resolution timers, world object positional communication for multiple player (UDP player x,y,z,w), video playback, matrix math, two dimensional drawing are maintained as well within VLISM. A cohesive base OOP API exists for developers to utilize. The INET platform offers several development tools that allow rapid game development. As well, the INET platform has 3d publishing tools to craft environments and publish these to the global market place. In conclusion, the advanced capabilities of mainframe processing and storage will allow more flexible multimedia applications to be operated on embedded INET smart game tops.
The realm of digital publishing within the entertainment industry has lost tremendous value and trust due to the duplication and retransmission ease that computer network operations provide. Digital media rights management, in modern form, requires that signatures be in place for the codec to decrypt and report. However, these can be overcome by resampling the playing source, stripping the signatures from the file and cracking the software encryption. These are the most practiced methods. Other algorithms that identify a song or video composition operate by scanning the content itself. A fuzzy match is performed to derive the original source. A combination of these two methods while using Point to Point Secure Identity Channels is how the INET Web OS will solve these issues.
One of the most difficult, circular reference, reverse engineering problems to solve (actual function) is the digital to analog process that is necessary for audio. Once audio is in wave form from a computer audio card, amplification is often necessary. Some system setups provide an external processor for the DAC and use a different transfer medium for the digital data (optic, USB). The end result is a transducer moving air. Sound is made by the paper whizzer cone, and the attached voice coil following the electrical signal. The ear interprets the sound. A research project will attempt to encode a signature that is definable within reproductions. Yet the information being seemingly unnoticeable will be hard to accomplish. Perhaps dividing a song into several time divisions for the extra information transmission will strengthen the stability of the audio signature within reproductions. Better approaches will consider each song in its raw form already unique by its existence; composition and audio characteristics. Each an example of a stenographic key.
In the pure fantastic arena, the INET Registered Audio and Video Component series of products offer optical transmission of the digital data direct to the output device. The data will be encrypted using a protected signature making the signal only distinguishable by the transducer block component. Housing a woofer, tweeter, mid-range in a three way configuration will provide separate amplification quantities for the amplifier. A configuration can also employ digital amplification with great qualities (see Class D Amplifier. The integrated circuits of the INET RAVC series provide a high precision DAC to amplifier making signal copy very difficult because of the microscopic electronics. However there are still hot signal wires to the transducers themselves. The multi-channel optical encrypted audio output of the INET Web OS Smart terminal will provide Dolby sound effortlessly. Even greater configurations of sound events and sound distribution can occur with optical bandwidth technology. Pipeline distinct audio signals to every room in stereo.
The system makes absolutely sure that forward iterations of an audio source are selected to be received and decrypted by a registered stream device. Audio and video content will be managed and registered for devices using a library policy. Copyrighted music and movies cannot be played by two family members using two devices at once. By varying the amplification electronics to match speaker usage and qualities, headphones and floor speakers will be securely connected to a library source. High quality scalable video output for movie set top boxes will also be an optimum choice for viewers.
The electronics that perform these functions will need to be designed for third party deployment. The security risk is reintegration of the decryption device after the DAC forms an audio signal. Likewise, video output of frame buffer information to a re-engineered capturing device will circumvent INET RAVC devices. Therefore, the difficulty in reintegration of the INET RAVC hardware and security identity must be difficult after a licensed manufacture. Thus enabling competing audio and video manufactures to still fulfill their direct qualities of service. Proposing an initial product line of branded devices for medium and high quality listening and viewing will be appreciated by consumers. Specialized orders to fulfill reintegration within high fidelity home theatre and professional audio will need deployment design to protect fully copyright requirements.
Preventing duplication after an audio signal composition process is difficult when tailoring to support backwards compatible hardware. A common Dennon tape deck can capture audio signals if the process is concealed within a box providing RCA connectors. Dennon has a network technology series that supports iTunes streaming and is integrated with Apple Computing. It is formally named AirPlay. A wide range of network products exist within the Dennon realm (see Networked Audio Products).
The INET WEB OS will include management of digital media public domain, owned and loaned. Public domain works may include television broadcasts, books, magazines, general non restricted content or even radio broadcasts. The important aspects of computer entertainment and application licensing is handled within this context however not in the same fashion. Software validity is authenticated using a server technology, encryption and licensing rules. The Anti-piracy feature also supports low level diagnostics. Owned materials are managed directly for a lifetime loss guarantee using signatures. Even providing for the end of the user life particular services can be readily s