KR20010065763A - Apparatus and Method for Compressing and Releasing a Transmission Information using Floating Multi-Channel and Variable Stream on Internet - Google Patents

Abstract

PURPOSE: An apparatus and method for compressing and decompressing transmission information are provided which compresses various files to store the files as one small-size file in a web server, and then automatically decompresses the stored small file using a plug-in program to show information identical to the original files to clients through a web browser. CONSTITUTION: A plurality of files that are connected to one file having all file forms used on the Internet to be shown to clients are compressed using a flexible multichannel method and variable stream transmission technique. Then, the files are stored in a web server as one small-sized file. Frame information transmitted from the web server is automatically decompressed using the flexible multichannel method and variable stream transmission technique to show the original information to the clients through a web browser.

Description

Apparatus and Method for Compressing and Releasing a Transmission Information using Floating Multi-Channel and Variable Stream on Internet}

The present invention relates to an apparatus for compressing and decompressing transmission information on the Internet, and a method thereof. In particular, various files (images, PDFs, DOCs, HWPs, etc.) to be connected to all files (HTML, XML, SGML, etc.) used on the Internet are shown. ) Is compressed and saved as a small file on the web server, and the saved small file information is automatically released using a plug-in program to show the original information to the client through the web browser. The present invention relates to an apparatus for compressing and decompressing transmission information using a flexible multichannel and a variable stream, and a method thereof.

The information currently provided on the Internet is aiming for new functions and colorful interfaces. However, these trends have resulted in a relatively large file size, which puts a strain on information usage for modem users or low-speed leased line users.

In addition, with the difficulty of managing various data, the information provider has a burden to expand the storage space of the data. In addition, there is always a risk of file corruption and loss.

In addition, clients use different HTTP to communicate with the Web server because they need to access different data. This is regarded as an important communication obstacle that needs to be addressed urgently as a cause of network traffic degradation.

Accordingly, an object of the present invention is to compress several files (images, PDF, DOC, HWP, etc.) to be connected to all files (HTML, XML, SGML, etc.) used on the Internet, and store them in one small file on a web server. Then, the stored small file information is automatically released using a plug-in program, and the transmission information is compressed and decompressed using flexible multi-channel and variable streams on the Internet, which allows the web browser to display the original information to the client. An apparatus and method are provided.

1 is a block diagram of a transmission information compression and decompression apparatus using a flexible multi-channel and a variable stream on the Internet according to an embodiment of the present invention.

FIG. 2 is a diagram for explaining multichannel generation in the FIA management tool of FIG. 1; FIG.

FIG. 3 is a diagram for explaining file compression using multichannel in the FIA management tool in FIG. 1; FIG.

4 shows a header structure of a compressed AOT file in FIG.

5 is a view for explaining the release of a compressed file using multi-channel in the plug-in program execution unit in FIG.

6 is a flowchart illustrating a transmission information compression method using a flexible multi-channel and a variable stream on the Internet according to an embodiment of the present invention.

7 is a flowchart illustrating a method of releasing transmission information using a flexible multi-channel and a variable stream on the Internet according to an embodiment of the present invention.

(Explanation of symbols on the main parts of drawing

1: FIA management tool 2: Plug-in program execution unit

11: DB 12: web browser

100: web server 200: client

In order to achieve the above object, the present invention compresses a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, It is characterized in that the file is stored in the web server.

The present invention for achieving the above object is to automatically decompress the information of the frame transmitted from the web server using a flexible multi-channel method and a variable stream transmission method to show the original information to the client through a web browser It is done.

In order to achieve the above object, the present invention compresses a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, A first step of storing the file in a web server; And a second step of automatically decompressing the information of the frame transmitted from the web server using the flexible multi-channel method and the variable stream transmission method to display the original information to the client through the web browser.

In order to achieve the above object, the present invention reads one file having all file formats used on the Internet, analyzes the included file, reads the included file, and then reads whether the file needs to be compressed. A first process of determining whether or not; If the read file is determined to be a file that requires compression, generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file that does not need compression as a result of the determination in the first step, it is determined whether to include in the AOT file which is the last generated file, and when the file is included in the AOT file as a result of the determination, a channel is generated or assigned. And converting the data into a stream; A fourth step of merging the compressed stream data generated in the second process and the stream data generated in the third process into one file and determining whether the merged stream data is the last stream data; If the determination result in the fourth process is not the last stream data, the first to third processes are repeatedly executed, and when the merged stream data is the last stream data, a header of the AOT file which is the last file ), And a fifth process of generating an optimized AOT file.

In order to achieve the above object, the present invention reads a transmission frame of an AOT file transmitted from a web server, determines whether the transmission frame is a header of a file, and analyzes information on the AOT file in the case of a header of the file. A first step of preparing to decompress; If the transmitted frame is not a header of the file as a result of the determination, analyzing a channel of the frame, separating the file, and then distinguishing whether the separated file is a compressed file; A third step of, in the case of the compressed file as a result of the classification in the second process, searching for whether there is an idle channel, creating a new channel if there is an idle channel, allocating the idle channel to the idle channel, and then decompressing it; In the case of the file that is not compressed as a result of the classification in the second process, a search is performed to determine whether there is an idle channel. If there is an idle channel, a new channel is created. A fourth process; After extracting the data decompressed in the third process or the data restored in the fourth process, the extracted data is delivered to the web browser, and when the data delivered to the web browser is the last data of the transmitted frame, the operation is finished. In the case of not the last data, a fifth process of repeating the first to fourth processes is performed.

In order to achieve the above object, the present invention reads one file having all file formats used on the Internet, analyzes the included file, reads the included file, and then reads whether the file needs to be compressed. A first process of determining whether or not; If the read file is determined to be a file that requires compression, generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file that does not need compression as a result of the determination in the first step, it is determined whether to include in the AOT file which is the last generated file, and when the file is included in the AOT file as a result of the determination, a channel is generated or assigned. And converting the data into a stream; A fourth step of merging the compressed stream data generated in the second process and the stream data generated in the third process into one file and determining whether the merged stream data is the last stream data; If the determination result in the fourth process is not the last stream data, the first to third processes are repeatedly executed, and when the merged stream data is the last stream data, a header of the AOT file which is the last file A fifth process of creating an optimized AOT file after creating the C2; Reading the transmission frame of the AOT file transmitted from the web server, determining whether the transmission frame is a header of the file, and analyzing the information about the AOT file and preparing to decompress if the header is a file Process; A seventh step of analyzing a channel of the frame, separating a file, and then distinguishing whether the separated file is a compressed file if the transmitted frame is not a header of the file; In the case of the compressed file as a result of the classification in the seventh step, an eighth step of generating a new channel if there is no idle channel, assigning the idle channel to the idle channel and releasing the compression; In the case of the file which is not compressed as a result of the classification in the seventh step, if there is an idle channel, the new channel is created, if there is an idle channel, the idle channel is allocated to the idle channel, and then the transmitted stream data is restored. Ninth process; After extracting the data decompressed in the eighth process or the data restored in the ninth process, the extracted data is delivered to the web browser, and when the data transmitted to the web browser is the last data of the transmitted frame, the operation is finished. If the data is not the last data, the sixth to ninth processes may be repeated.

In order to achieve the above object, the present invention compresses a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method. It further comprises means for storing a small file on the web server.

In order to achieve the above object, the present invention provides a means of automatically decompressing information of a frame transmitted from a web server using a flexible multi-channel method and a variable stream transmission method to display original information to a client through a web browser. It is configured to include more.

In order to achieve the above object, the present invention compresses a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, First means for storing the file in a web server; And second means for automatically decompressing the information of the frame transmitted from the web server using the flexible multi-channel method and the variable stream transmission method to display the original information to the client through the web browser.

In order to achieve the above object, the present invention reads one file having all file formats used on the Internet, analyzes the included file, reads the included file, and then reads whether the file needs to be compressed. First means for determining whether or not; If it is determined that the read file is a file that requires compression, second means for generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file which does not need compression as a result of the determination by the first means, it is determined whether to include in the AOT file which is the last generated file, and when the result is the file to be included in the AOT file, the channel is generated or assigned. Third means for converting data into a stream; Fourth means for determining whether the merged stream data is the last stream data after merging the compressed stream data generated by the second means and the stream data generated by the third means into one file; If it is determined that the fourth means is not the last stream data, the operation of the first to third means is repeatedly executed, and if the merged stream data is the last stream data, the header of the AOT file which is the last file. After the (Header) is created, a fifth means for generating an optimized AOT file is included.

In order to achieve the above object, the present invention reads a transmission frame of an AOT file transmitted from a web server, determines whether the transmission frame is a header of a file, and analyzes information on the AOT file in the case of a header of the file. First means for preparing to decompress; If the transmitted frame is not a header of a file, as a result of the determination, analyzing the channel of the frame, separating the file, and then discriminating whether the separated file is a compressed file; A third means for generating a new channel if there is no idle channel if the file is compressed as a result of the classification in the second means, and assigning to the idle channel if there is an idle channel; In the case of a file that is not compressed as a result of the classification by the second means, if there is no idle channel, a new channel is created, and if there is an idle channel, the new channel is allocated to the idle channel, and then the transmitted stream data is restored. Fourth means; Extracting the data decompressed by the third means or the data restored by the fourth means, and transferring the extracted data to the web browser, and when the data transmitted to the web browser is the last data of the transmitted frame, If it is not the last data, it comprises a fifth means for repeating the operation of the first to fourth means.

In order to achieve the above object, the present invention reads one file having all file formats used on the Internet, analyzes the included file, reads the included file, and then reads whether the file needs to be compressed. First means for determining whether or not; If it is determined that the read file is a file that requires compression, second means for generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file which does not need compression as a result of the determination by the first means, it is determined whether to include in the AOT file which is the last generated file, and when the result is the file to be included in the AOT file, the channel is generated or assigned. Third means for converting data into a stream; Fourth means for determining whether the merged stream data is the last stream data after merging the compressed stream data generated by the second means and the stream data generated by the third means into one file; If the determination result in the fourth means is not the last stream data, the operations of the first to third means are repeatedly executed, and when the merged stream data is the last stream data, the header of the AOT file which is the last file. A fifth means for generating an optimized AOT file after creating a (Header); Reading the transmission frame of the AOT file transmitted from the web server, determining whether the transmission frame is a header of the file, and analyzing the information about the AOT file and preparing to decompress if the header is a file Means; A seventh means for analyzing the channel of the frame, separating the file, and then distinguishing whether the separated file is a compressed file if the transmitted frame is not a header of the file; An eighth means for generating a new channel if there is no idle channel in the case of a compressed file as a result of the classification in the seventh means, and assigning to the idle channel if there is an idle channel; In the case of the file that is not compressed as a result of the classification in the seventh means, if there is no idle channel, a new channel is created, if there is an idle channel, the new channel is allocated to the idle channel, and then the transmitted stream data is restored. Ninth means; After extracting the data decompressed by the eighth means or the data restored by the ninth means and transferring the extracted data to the web browser, if the data transmitted to the web browser is the last data of the transmitted frame, the operation is finished. If it is not the last data, it comprises a tenth means for repeating the operation of the sixth to ninth means.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of an apparatus for compressing and decompressing transmission information using a flexible multichannel and a variable stream on the Internet according to an embodiment of the present invention.

As shown in FIG. 1, the apparatus for compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet is provided in a web server 100 that provides Internet information, and connected to a single HTML file. Fast Internet Agent (FIA) Manager Tool (1) for compressing files (images, PDFs, DOCs, HWPs, etc.) to generate one small file and store it on the hard disk 11, and the web server ( 100 is provided in the client 200 receives the information from the web server 100 to automatically release the information of the frame transmitted by the plug-in program, and then to the Internet user through the web browser 12 It consists of a plug-in program execution section 2 which shows information such as the HTML original.

The operation of the apparatus for compressing and decompressing transmission information using a flexible multi-channel and a variable stream and the method of compressing and decompressing the same according to an embodiment of the present invention configured as described above will be described in detail with reference to FIGS. 2 to 7. .

First, the object of application of the present invention is not only HTML files, but also all file formats (XML, SGML, etc.) used on the Internet, but the description will be mainly focused on HTML files. A file newly created by the present invention is referred to as an "AOT file" made with the extension AOT.

In addition, the present invention makes various linked files on an HTML document into a file capable of being streamed. In this case, a method of compressing or decompressing files connected to various forms in an HTML document on the same line, rather than a sequential method, is adopted.

The general frame stream method transmits a fixed frame. However, since the position of objects (images, sounds, other data files, etc.) inserted in an HTML document is not uniformly defined, it must be able to be delivered in a variable frame.

In order to solve the above problem, the present invention uses a flexible multi-channel scheme and a variable stream transmission scheme.

The flexible multichannel scheme creates one or several channels, depending on the format of the files to be compressed or decompressed, as shown in FIG. The created channel is destroyed when the compression or decompression of the file corresponding to the channel is completed and when the other file is compressed or decompressed or there is no target file. In other words, as the channel is repeatedly created, rested, and destroyed, the target file is compressed or decompressed. 2 is a diagram illustrating a method of generating and compressing a multi-channel.

The variable stream transmission method is a method of increasing the efficiency of the operation by transmitting the stream by changing the size of the frame required for the compression or decompression operation according to the object to be compressed or decompressed and the type of client access device.

3, 4 and 6, a transmission information compression method using a flexible multi-channel and a variable stream on the Internet according to an embodiment of the present invention will be described in detail as follows.

First, in step S101, an HTML file is read from the main.html file of the web site (http://www.altavista.com) shown in FIG. 3, and then the included file is analyzed.

In step S102, the file included in the HTML file is read. That is, as shown in Figure 3, if the image files (Image 1, Image 2, Image 3, Image 4, Image 5, Image 6) is included in the main.html file, the image files (Image 1, Image 2, Image3, Image 4, Image 5, Image 6).

In step S103, it is determined whether or not the image files (Image 1, Image 2, Image 3, Image 4, Image 5, Image 6) read in step S102 are files that require compression. In other words, files that have already been optimized are excluded from the compression process to streamline the operation.

Here, for ease of explanation, it is assumed that all of the image files Image 1, Image 2, Image 3, Image 4, Image 5, Image 6 are GIF files that are not optimized, that is, files that require compression. .

If in step S103 the image files Image 1, Image 2, Image 3, Image 4, Image 5, Image 6 are determined to be files that need compression, then in step S104 a new channel is created if there is no idle channel. If there is an idle channel, the channel is allocated. Next, in step S105, a compressed stream is generated.

The process of step S104 and step S105 will be described in detail with reference to FIG. 3 as follows.

In step S104, channel 1 (Channel 1) for compression of main.html is generated, and in step S105, the compression operation is started.

Since there is no idle channel to be allocated to the first inserted Image 1, in step S104 and step S105, channel 2 is generated to start compression of the image 1.

Since there is no idle channel to be allocated to the second inserted Image 2, in step S104 and step S105, channel 3 is created and compression of the image 2 file is started.

Since there are no idle channels to allocate to the third inserted Image 3, in step S104 and step S105, channel 4 is created to start compression of the image 3 file.

Search for an idle channel to assign to the fourth inserted Image 4. Since channel 1, which was responsible for the compression operation of main.html, is in a rest state after the completion of the operation, in step S104 and step S105, image 4 (Image 4) is assigned to channel 1 to perform the compression operation. To start.

Retrieve the idle channel to be assigned to fifth inserted image 5. Since Channel 3, which was responsible for the compression operation of Image 2, is in the resting state after the completion of the operation, in step S104 and S105, the compression operation of the image 5 (Image 5) is performed. Start compression by assigning to.

Search for the idle channel to be assigned to the sixth inserted Image 6. Since channel 2, which was responsible for the compression operation of image 1, has already finished the work and is in a resting state, in step S104 and step S105, image 6 (Image 6) is assigned to channel 2 to perform the compression operation. To start.

On the other hand, if the determination result in step S103 is a file that has already been optimized and does not require compression, it is determined whether to include it in the AOT file which is the last generated file. For example, in the case of a JPG file that is relatively small in size and must be displayed with HTML, it is effective to include the stream in the AOT file. However, it is effective not to include it in the AOT file if the file is already created as stream data or real large file such as RealAudio (rm file).

In the case where the determination result in step S106 is a file to be included in the AOT file, the channel is generated or assigned as in step 104. Next, the data is changed into a stream in step S108.

In step S109, the compressed stream data generated in step S105 and the stream data generated in step S108 are merged into one file.

In step S110, it is determined whether the stream data merged in step S109 is the last stream data, and if it is not the last stream data, the processes of steps S102 to S109 are repeated.

As a result of the determination in step S110, when the stream data merged in step S109 is the last stream data, in step S111, a header of the AOT file which is the last file is created and the operation is completed.

That is, the files whose compression operation is completed, record information in the header of the AOT file shown in FIG. 4 to be located in the first frame of the AOT file to be transmitted first, and are stored in each frame. When all files have been compressed, you'll have an optimized main.aot file in main.html.

As shown in FIG. 4, a header of the AOT file is composed of a data rate, an authentication level of the present file, a total number of files included, information of an included file, and producer information.

In the data rate, a setting value of a size of a frame to decompress an AOT file is recorded. For example, a setting value of a frame size that is changed in accordance with a communication environment such as a modem connector, an ISDN connector, or a LAN connector is recorded.

The authentication level of the AOT file is recorded in the authentication level of the present file. For example, the file is divided into a public file, a local authentication file, and a server authentication file.

The total number of files included in the AOT file is recorded in the total number of included files.

The information of each file included in the AOT file is recorded in the information of the included file. For example, the compression capacity of each file, the original file name, the size of the original file, the original creation date, etc. are recorded.

The production information of the AOT file is recorded in the producer information. For example, the file creation date, author, affiliation, license, etc. are recorded.

As newly created channels increase the burden on the system as the number increases, a separate management function is used to allow the administrator to adjust the number according to the performance of the system. If the number of channels is specified, the newly created channel cannot exceed that number, the required channel is performed through the idle channel which has already been completed, and the finished channel is automatically destroyed. The same applies to plug-in programs that are responsible for decompressing compression.

Next, referring to FIGS. 5 and 7, a method of releasing transmission information using a flexible multichannel and a variable stream on the Internet according to an embodiment of the present invention will be described in detail.

First, in step S201, after reading the transmitted frame of the main.aot file, in step S202, it is determined whether the transmitted frame is a header of the file, and in the case of the header of the file, in step S203 the main.aot file Analyze the information about and prepare appropriately to decompress it.

If the transmitted frame is not the header of the file as a result of the determination in step S202, the channel of the frame is analyzed in step S204, the file is separated, and in step S205, the separated file is classified as a compressed file. .

As shown in Fig. 5, in the case of the compressed file as a result of the discrimination in step S205, in step S206, if there is no idle channel, a new channel is created. If there is an idle channel, it is assigned to the idle channel. In step S207, the compression is released.

That is, since the compressed data of the HTML and the compressed data of the image 1 (Image 1) are included in the second frame shown in FIG. 5, in step S206 and step S207, channel 1 is generated to compress the HTML. Start decompression, and since there is no idle channel, channel 2 is created, so image 1 starts decompression.

In the third frame, data of HTML and Image 1 arrives continuously. Since there is no idle channel when the new data Image 2 arrives, a new channel 3 is generated in steps S206 and S207 to start the decompression operation of the image 2.

In the fourth frame, HTML, Image 1, and Image 2 consecutive data are received. The decompression operation continues in step S207.

In the fifth frame, the data of Image 3 arrives first. Since there is no idle channel, a new channel 4 is created in steps S206 and S207 to decompress the image 3. As soon as the data of Image 4 arrives, at this point, Channel 1, which was working on HTML release, is in an idle state, so the release of Image 4 to Channel 1 is performed. Take charge of your work.

In the sixth frame, consecutive data of Image 1, Image 2, Image 3, and Image 4 arrive. In addition, the release operation of the image 2 is terminated on the way, and the channel 3 is in a rest state.

In the seventh frame, new data of Image 5 arrives with continuous data of Image 1, Image 3, and Image 4. At this time, the channel 3 (Channel 3), which was previously in the resting state, is responsible for the release of the image 5. And, since the image 3 (Image 3) is terminated in the middle of the release work, Channel 4 (Channel 4) in charge of the work is in a rest state. However, since the information of the files included in the header portion of the file has already been analyzed, it is destroyed due to the unnecessaryness of channel 4.

In the eighth frame, consecutive data of Image 4 and Image 5 are arriving. The decompression operation is continued in step S207.

In the ninth frame, the decompression operation of Image 4 is continued in step S207, and the decompression operation of Image 5 is terminated in the middle, so that Channel 3 which was in charge of the operation is in a resting state. . However, since the information of the files included in the header portion of the file has already been analyzed, it is destroyed due to the unnecessaryness of channel 3.

In the tenth frame, the decompression operation of the image 4 (Image 4) is continued in step S207, and new data of the image 6 (Image 6) arrives. At this time, the channel 2 (Channel 2) previously in the rest state is in charge of the release of the image 6 (Image 6).

In the eleventh frame, the release of Image 4 is terminated in the middle, so Channel 1, which was in charge of the work, is in a resting state. However, since the information of the files included in the header portion of the file has already been analyzed, it is destroyed due to the unnecessaryness of Channel 1. In step S205, the decompression operation of the image 6 is continued.

In the twelfth frame, the release of Image 6 is terminated in the middle, so Channel 2, which was in charge of the work, is in a resting state. However, since the information of the files included in the header portion of the file has already been analyzed, it is destroyed due to the unnecessaryness of Channel 2.

On the other hand, in the case where the file is not compressed as a result of the determination in step S205, the channel is generated or allocated as in step S206, and the stream data transmitted in step S209 is restored.

In step S210, the data decompressed in step S207 or the data restored in step S209 is extracted. In step S211, the data extracted in step S210 is transferred to the web browser for viewing by the client.

If the data transmitted to the web browser in step S212 is the last data of the transmitted frame, the operation is finished, and if the data is not the last data, the steps S201 to S212 are repeated.

In this way, the plug-in program delivers the decompressed data to the web browser while decompressing to improve the client's speed. That is, if frame 3 arrives and is decompressed, but the decompression of the data up to frame 2 is finished, the data up to frame 2 is delivered to the browser for viewing by the client.

The portion "A" shown in FIG. 4 represents a frame which has already been decompressed, and assumes that the operation up to frame 6 is completed. At this time, the following browser shows the contents of the decompressed data up to frame 6.

HTML and Image 2 look complete because all data has been decompressed up to Frame 6. In addition, since Image 1, Image 3, and Image 4 are decompressing, only the work results up to Frame 6 are transmitted to the web browser, and the image is partially seen. . In addition, since the compressed data did not arrive until Frame 6 and the decompressed work results were not transmitted to the web browser, the images were not shown at all.

The present invention as described above has the following effects.

(1) Information Provider Aspect

a. Convenient document management

Combining multiple files (GIF, PDF, DOC, etc.) that will be shown linked to one HTML file and creating them as one file provides convenience of file management.

b. Reduced network traffic

Because the file is stored on the web server as a compressed file, the browser only needs to maintain one HTTP connection with the web server. Therefore, the overhead for handling communication between the browser and the server is reduced that much. This allows existing systems to accommodate more users' access than ever before.

c. Efficient use of storage space

Since a large number of files are managed as a single file and a large file is managed as a small file, a small amount of storage space is used, and thus, a large amount of information can be stored in an existing storage space.

d. Provide a variety of effects to information users

Information providers can provide users with more diverse information because they can use functions that have been avoided due to file size or transmission speed.

(2) user side of information

a. Reduced time to web surfing

Because Web Server manages small files, you can receive the same information in less time. Thus, web surfing time is shortened.

b. Speed of experience

In the core technology of the present invention, "compression and decompression method using a flexible multichannel and a random stream", all files included in a compressed file are decompressed simultaneously using a multichannel. In addition, it analyzes the information of the site stored in the user's cache and downloads only the modified part and decompresses it. In addition, the haptic speed is improved because the information that is completed while performing the decompression operation is continuously transmitted to the screen of the web browser before all the operations are completed. Especially, when the information displayed in the HTML file is text-oriented information, the haptic speed is further improved.

c. Communication cost reduction

Since modem users can receive the same information in a short time, the time required for web surfing can be reduced, thereby reducing communication costs.

d. Ease of use

Compressed files are automatically decompressed and delivered to a web browser through a Plug-in Program. Therefore, the user only needs to install a plug-in program to use the Internet, thereby reducing unnecessary operations.

Claims (76)

Compressing multiple files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, and then storing them as one small file on a web server. Transmission information compression method using a flexible multi-channel and a variable stream on the Internet. The method of claim 1, In the flexible multi-channel method, the number of channels to be compressed is not fixed, and the transmission information compression method using the flexible multi-channel and the variable stream on the Internet, characterized by using the number of channels in accordance with the object. The method of claim 1, In the variable stream transmission method, transmission information compression using flexible multi-channel and variable streams on the Internet is characterized in that a stream is transmitted by varying the size of a frame required for the compression operation according to the object to be compressed and the type of client access device. Way. Flexible multi-channel and variable on the Internet, characterized in that the information of the frame transmitted from the web server is automatically decompressed using the flexible multi-channel method and the variable stream transmission method to show the original information to the client through the web browser. Method of releasing transmission information using stream. The method of claim 4, wherein In the flexible multichannel scheme, the number of channels to be compressed is not determined, and the number of channels to be compressed is flexibly used according to the object. The method of claim 4, wherein The variable stream transmission method releases transmission information using flexible multi-channel and variable streams on the Internet, characterized in that a stream is transmitted by changing a size of a frame required for a compression operation according to a type of a target to be compressed and a connection device of a client. Way. First step of compressing a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, and then storing them as one small file on a web server Wow; And a second step of automatically decompressing the information of the frame transmitted from the web server using the flexible multi-channel method and the variable stream transmission method to show the original information to the client through the web browser. A method for compressing and decompressing transmission information using flexible multichannels and variable streams over the Internet. The method of claim 7, wherein In the flexible multi-channel method, the number of channels to be compressed is not fixed, and the transmission information compression and decompression method using the flexible multi-channel and variable streams on the Internet is characterized in that the number of channels is flexibly used according to the object. The method of claim 7, wherein In the variable stream transmission method, transmission information compression using flexible multi-channel and variable streams on the Internet is characterized in that a stream is transmitted by varying the size of a frame required for the compression operation according to the object to be compressed and the type of client access device. And release method. The method of claim 7, wherein The first step is to read one file having all file types used on the Internet, analyze the included file, read the included file, and determine whether the read file is a file that requires compression or not. A first process; If the read file is determined to be a file that requires compression, generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file that does not need compression as a result of the determination in the first step, it is determined whether to include in the AOT file which is the last generated file, and when the file is included in the AOT file as a result of the determination, a channel is generated or assigned. And converting the data into a stream; A fourth step of merging the compressed stream data generated in the second process and the stream data generated in the third process into one file and determining whether the merged stream data is the last stream data; If the determination result in the fourth process is not the last stream data, the first to third processes are repeatedly executed, and when the merged stream data is the last stream data, a header of the AOT file which is the last file And a fifth process of generating an optimized AOT file, and then using the flexible multi-channel and variable stream on the Internet. The method of claim 7, wherein In the second step, after reading the transmission frame of the AOT file transmitted from the web server, it is determined whether the transmission frame is a header of the file, and in the case of the header of the file, information about the AOT file is prepared to be decompressed. A first process of doing; If the transmitted frame is not a header of the file as a result of the determination, analyzing a channel of the frame, separating the file, and then distinguishing whether the separated file is a compressed file; A third step of, in the case of the compressed file as a result of the classification in the second process, searching for whether there is an idle channel, creating a new channel if there is an idle channel, allocating the idle channel to the idle channel, and then decompressing it; In the case of the file which is not compressed as a result of the classification in the second process, if there is an idle channel, a new channel is created, if there is an idle channel, the idle channel is allocated to the idle channel, and then the transmitted stream data is restored. A fourth process; After extracting the data decompressed in the third process or the data restored in the fourth process, the extracted data is delivered to the web browser, and when the data delivered to the web browser is the last data of the transmitted frame, the operation is finished. If it is not the last data, the transmission information compression and decompression method using a flexible multi-channel and a variable stream on the Internet, characterized in that the fifth step of repeatedly performing the first to fourth processes. The method of claim 10 or 11, The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Method for compressing and decompressing transmission information using a variable stream. The method of claim 10 or 11, The data rate is a method of compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet, characterized in that the setting value of the size of the frame is changed according to the communication environment. The method of claim 10 or 11, The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information compression and decompression method. The method of claim 10 or 11, And a total number of files included in the AOT file is recorded in the total number of the included files. The method of claim 10 or 11, The information of each file included in the AOT file is recorded in the information of the included file, the transmission information compression and decompression method using a flexible multi-channel and a variable stream on the Internet. The method of claim 10 or 11, And the production information of the AOT file is recorded in the producer information. A first step of reading one file having all file types used on the Internet, analyzing the included file to read the included file, and determining whether the read file is a file that requires compression; If the read file is determined to be a file that requires compression, generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file that does not need compression as a result of the determination in the first step, it is determined whether to include in the AOT file which is the last generated file, and when the file is included in the AOT file as a result of the determination, a channel is generated or assigned. And converting the data into a stream; A fourth step of merging the compressed stream data generated in the second process and the stream data generated in the third process into one file and determining whether the merged stream data is the last stream data; If the determination result in the fourth process is not the last stream data, the first to third processes are repeatedly executed, and when the merged stream data is the last stream data, a header of the AOT file which is the last file And a fifth process of generating an optimized AOT file after the transmission process is generated. The method of claim 18, The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Transmission information compression method using a variable stream. The method of claim 18, The data rate is a transmission information compression method using a flexible multi-channel and a variable stream on the Internet, characterized in that the setting value of the size of the frame is changed according to the communication environment. The method of claim 18, The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information compression method using The method of claim 18, And a total number of files included in the AOT file is recorded in the total number of included files. The method of claim 18, And the information of each file included in the AOT file is recorded in the information of the included file. The method of claim 18, The producer information is a transmission information compression method using a flexible multi-channel and a variable stream on the Internet, characterized in that the production information of the AOT file is recorded. A first process of reading a transmission frame of an AOT file transmitted from a web server, determining whether the transmission frame is a header of a file, and analyzing the information about the AOT file and preparing to decompress it if the header of the file is a file header and; If the transmitted frame is not a header of the file as a result of the determination, analyzing a channel of the frame, separating the file, and then distinguishing whether the separated file is a compressed file; A third step of, in the case of the compressed file as a result of the classification in the second process, searching for whether there is an idle channel, creating a new channel if there is an idle channel, allocating the idle channel to the idle channel, and then decompressing it; In the case of the file which is not compressed as a result of the classification in the second process, if there is an idle channel, a new channel is created, if there is an idle channel, the idle channel is allocated to the idle channel, and then the transmitted stream data is restored. A fourth process; After extracting the data decompressed in the third process or the data restored in the fourth process, the extracted data is delivered to the web browser, and when the data delivered to the web browser is the last data of the transmitted frame, the operation is finished. If it is not the last data, the transmission information release method using a flexible multi-channel and a variable stream on the Internet, characterized in that the fifth step of repeatedly performing the first to fourth process. The method of claim 25, The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Method of releasing transmission information using and variable stream. The method of claim 25, The data rate is a method for releasing transmission information using a flexible multi-channel and a variable stream on the Internet, characterized in that the setting value of the size of the frame is changed according to the communication environment. The method of claim 25, The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Method of releasing transmission information using. The method of claim 25, The total number of files included in the AOT file is recorded in the total number of files included in the transmission information release method using a flexible multi-channel and a variable stream on the Internet. The method of claim 25, The information of each file included in the AOT file is recorded in the information of the included file, the transmission information release method using a flexible multi-channel and a variable stream on the Internet. The method of claim 25, The production information release method using a flexible multi-channel and a variable stream on the Internet, characterized in that the production information of the AOT file is recorded in the producer information. A first step of reading one file having all file types used on the Internet, analyzing the included file to read the included file, and determining whether the read file is a file that requires compression; If the read file is determined to be a file that requires compression, generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file that does not need compression as a result of the determination in the first step, it is determined whether to include in the AOT file which is the last generated file, and when the file is included in the AOT file as a result of the determination, a channel is generated or assigned. And converting the data into a stream; A fourth step of merging the compressed stream data generated in the second process and the stream data generated in the third process into one file and determining whether the merged stream data is the last stream data; If the determination result in the fourth process is not the last stream data, the first to third processes are repeatedly executed, and when the merged stream data is the last stream data, a header of the AOT file which is the last file A fifth process of creating an optimized AOT file after creating the C2; Reading the transmission frame of the AOT file transmitted from the web server, determining whether the transmission frame is a header of the file, and analyzing the information about the AOT file and preparing to decompress if the header is a file Process; A seventh step of analyzing a channel of the frame, separating a file, and then distinguishing whether the separated file is a compressed file if the transmitted frame is not a header of the file; In the case of the compressed file as a result of the classification in the seventh step, an eighth step of generating a new channel if there is no idle channel, assigning the idle channel to the idle channel and releasing the compression; In the case of the file which is not compressed as a result of the classification in the seventh step, if there is an idle channel, the new channel is created, if there is an idle channel, the idle channel is allocated to the idle channel, and then the transmitted stream data is restored. Ninth process; After extracting the data decompressed in the eighth process or the data restored in the ninth process, the extracted data is delivered to the web browser, and when the data transmitted to the web browser is the last data of the transmitted frame, the operation is finished. If it is not the last data, the transmission information compression and decompression method using a flexible multi-channel and a variable stream on the Internet, characterized in that it comprises a tenth step of repeating the sixth to ninth process. The method of claim 32, The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Method for compressing and decompressing transmission information using a variable stream. The method of claim 32, The data rate is a method of compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet, characterized in that the setting value of the size of the frame is changed according to the communication environment. The method of claim 32, The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information compression and decompression method. The method of claim 32, And a total number of files included in the AOT file is recorded in the total number of the included files. The method of claim 32, The information of each file included in the AOT file is recorded in the information of the included file, the transmission information compression and decompression method using a flexible multi-channel and a variable stream on the Internet. The method of claim 32, And the production information of the AOT file is recorded in the producer information. A method of compressing a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, and then storing a small file as a small file on the web server. Transmission information compression apparatus using a flexible multi-channel and a variable stream on the Internet, characterized in that further comprises. The method of claim 39, The flexible multi-channel method is a transmission information compression apparatus using a flexible multi-channel and a variable stream on the Internet, characterized in that the number of channels to be compressed is not determined, but using the number of channels in accordance with the object. The method of claim 39, In the variable stream transmission method, transmission information compression using flexible multi-channel and variable streams on the Internet is characterized in that a stream is transmitted by varying the size of a frame required for the compression operation according to the object to be compressed and the type of client access device. Device. And a means for automatically decompressing the information of the frame transmitted from the web server using the flexible multi-channel method and the variable stream transmission method to display the original information to the client through the web browser. Transmission information releasing device using a flexible multi-channel and a variable stream on the. The method of claim 42, The apparatus for releasing transmission information using a flexible multi-channel and a variable stream on the Internet, characterized in that the number of channels to be compressed is not determined but the number of channels to be compressed is used according to a target. The method of claim 42, The variable stream transmission method releases transmission information using flexible multi-channel and variable streams on the Internet, characterized in that a stream is transmitted by changing a size of a frame required for a compression operation according to a type of a target to be compressed and a connection device of a client. Device. First means for compressing a plurality of files to be connected to one file having all file formats used on the Internet by using a flexible multi-channel method and a variable stream transmission method, and then storing them as one small file on a web server. and; And a second means for automatically decompressing the information of the frame transmitted from the web server using the flexible multi-channel method and the variable stream transmission method to show the original information to the client through the web browser. Transmission information compression and decompression device using flexible multi-channel and variable stream on the Internet. The method of claim 45, The apparatus for compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet, characterized in that the flexible multi-channel method does not determine a number of channels to be compressed, but uses a variable number of channels according to a target. The method of claim 45, In the variable stream transmission method, transmission information compression using flexible multi-channel and variable streams on the Internet is characterized in that a stream is transmitted by varying the size of a frame required for the compression operation according to the object to be compressed and the type of client access device. And release device. The method of claim 45, The first means reads one file having all the file formats used on the Internet, analyzes the included file, reads the included file, and determines whether the read file is a file that requires compression or not. First sub means; Second sub means for generating a compressed stream if there is no idle channel if the read file is determined to be a file that needs to be compressed, allocating the channel if there is an idle channel; In the case of the file that does not need compression as a result of the determination in the first sub-means, it is determined whether to include in the AOT file which is the last generated file, and if the file is to be included in the AOT file as a result of the determination, a channel is generated or Third sub means for allocating and converting data into a stream; A fourth sub means for merging the compressed stream data generated by the second sub means and the stream data generated by the third sub means into one file and determining whether the merged stream data is the last stream data; If it is determined that the fourth means is not the last stream data, the operations of the first to third subs are repeatedly executed, and if the merged stream data is the last stream data, the header of the AOT file which is the last file. And a fifth sub means for generating an optimized AOT file after creating a header, wherein the apparatus for compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet. The method of claim 45, After reading the transmission frame of the AOT file transmitted from the web server, the second means determines whether the transmission frame is a header of the file, and if the header is the file, analyzes information about the AOT file and prepares to decompress it. First sub means for performing; A second sub means for analyzing a channel of the frame, separating a file, and then identifying whether the separated file is a compressed file if the transmitted frame is not a header of a file; A third sub means for searching for an idle channel if a file is compressed as a result of the classification in the second sub means, creating a new channel if there is no idle channel, allocating an idle channel to the idle channel, and then decompressing it; ; In the case of a file which is not compressed as a result of the classification in the second sub means, if there is no idle channel, a new channel is created. If there is an idle channel, the new channel is allocated to the idle channel, and then the transmitted stream data is restored. Fourth sub means; Extract the data decompressed in the third sub means or the data restored in the fourth sub means, transfer the extracted data to the web browser, and if the data transmitted to the web browser is the last data of the transmitted frame, the operation is performed. And a fifth sub which repeatedly executes the operations of the first to fourth sub-means when the data are not the last data. The transmission information compression and decompression apparatus using the flexible multi-channel and the variable stream on the Internet. The method of claim 48 or 49, The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Transmission information compression and decompression device using a variable stream. The method of claim 48 or 49, The apparatus for compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet, wherein a setting value of a frame size changed according to a communication environment is recorded in the data rate. The method of claim 48 or 49, The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information compression and decompression device using. The method of claim 48 or 49, And a total number of files included in the AOT file is recorded in the total number of files included in the transmission information compression and decompression apparatus using the flexible multi-channel and variable streams on the Internet. The method of claim 48 or 49, Transmission information compression and decompression apparatus using the flexible multi-channel and variable stream on the Internet, characterized in that the information of each file included in the AOT file is recorded in the information of the included file. The method of claim 48 or 49, The producer information compression and decompression apparatus using the flexible multi-channel and variable stream on the Internet, characterized in that the production information of the AOT file is recorded. First means for reading a file having all file types used on the Internet, analyzing the file included therein, reading the included file, and determining whether the read file is a file that requires compression; If it is determined that the read file is a file that requires compression, second means for generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file which does not need compression as a result of the determination by the first means, it is determined whether to include in the AOT file which is the last generated file, and when the result is the file to be included in the AOT file, the channel is generated or assigned. Third means for converting data into a stream; Fourth means for determining whether the merged stream data is the last stream data after merging the compressed stream data generated by the second means and the stream data generated by the third means into one file; If it is determined that the fourth means is not the last stream data, the operation of the first to third means is repeatedly executed, and if the merged stream data is the last stream data, the header of the AOT file which is the last file. And a fifth means for generating an optimized AOT file after creating a header, wherein the apparatus for compressing transmission information using a flexible multichannel and a variable stream on the Internet. The method of claim 56, wherein The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Transmission information compression apparatus using a variable stream. The method of claim 56, wherein And a setting value of a frame size that is changed according to a communication environment in the data rate. The transmission information compression apparatus using a flexible multi-channel and a variable stream on the Internet. The method of claim 56, wherein The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information compression apparatus using a. The method of claim 56, wherein And a total number of files included in the AOT file is recorded in the total number of included files. The method of claim 56, wherein Transmission information compression apparatus using a flexible multi-channel and variable stream on the Internet, characterized in that the information of each file included in the AOT file is recorded in the included file information. The method of claim 56, wherein And the producer information records the production information of the AOT file. First means for reading the transmission frame of the AOT file transmitted from the web server, determining whether the transmission frame is a header of the file, and analyzing the information about the AOT file and preparing to decompress if the header of the file is a header of the file; and; If the transmitted frame is not a header of a file, as a result of the determination, analyzing the channel of the frame, separating the file, and then discriminating whether the separated file is a compressed file; A third means for generating a new channel if there is no idle channel in the case of a compressed file as a result of the classification in the second means, assigning the idle channel to the idle channel if there is an idle channel, and then decompressing it; In the case of a file that is not compressed as a result of the classification by the second means, if there is no idle channel, a new channel is created, and if there is an idle channel, the new channel is allocated to the idle channel, and then the transmitted stream data is restored. Fourth means; Extracting the data decompressed by the third means or the data restored by the fourth means, and transferring the extracted data to the web browser, and when the data transmitted to the web browser is the last data of the transmitted frame, In the case of not the last data, the transmission information release apparatus using a flexible multi-channel and a variable stream on the Internet, characterized in that it comprises a fifth means for repeating the first to fourth processes. The method of claim 63, wherein The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Transmission information release apparatus using a variable stream. The method of claim 63, wherein And a setting value of a frame size changed according to a communication environment is recorded in the data rate. The method of claim 63, wherein The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information release device using. The method of claim 63, wherein And a total number of files included in the AOT file is recorded in the total number of included files. The method of claim 63, wherein The information of each file included in the information of the included file is recorded in the transmission information release apparatus using a flexible multi-channel and variable stream on the Internet, characterized in that recorded. The method of claim 63, wherein And the producer information records the production information of the AOT file. First means for reading a file having all file types used on the Internet, analyzing the file included therein, reading the included file, and determining whether the read file is a file that requires compression; If it is determined that the read file is a file that requires compression, second means for generating a new channel if there is no idle channel, allocating the channel if there is an idle channel, and generating a compressed stream; In the case of the file which does not need compression as a result of the determination by the first means, it is determined whether to include in the AOT file which is the last generated file, and when the result is the file to be included in the AOT file, the channel is generated or assigned. Third means for converting data into a stream; Fourth means for determining whether the merged stream data is the last stream data after merging the compressed stream data generated by the second means and the stream data generated by the third means into one file; If the determination result in the fourth means is not the last stream data, the operations of the first to third means are repeatedly executed, and when the merged stream data is the last stream data, the header of the AOT file which is the last file. A fifth means for generating an optimized AOT file after creating a (Header); Reading the transmission frame of the AOT file transmitted from the web server, determining whether the transmission frame is a header of the file, and analyzing the information about the AOT file and preparing to decompress if the header is a file Means; A seventh means for analyzing the channel of the frame, separating the file, and then distinguishing whether the separated file is a compressed file if the transmitted frame is not a header of the file; An eighth means for generating a new channel if there is no idle channel in the case of a compressed file as a result of the classification in the seventh means, and assigning to the idle channel if there is an idle channel; In the case of the file that is not compressed as a result of the classification in the seventh means, if there is no idle channel, a new channel is created, if there is an idle channel, the new channel is allocated to the idle channel, and then the transmitted stream data is restored. Ninth means; After extracting the data decompressed by the eighth means or the data restored by the ninth means and transferring the extracted data to the web browser, if the data transmitted to the web browser is the last data of the transmitted frame, the operation is finished. And a tenth means for repeatedly executing the operations of the sixth to ninth means if it is not the last data. The transmission information compression and decompression method using the flexible multi-channel and the variable stream on the Internet. The method of claim 70, The header of the AOT file includes a data rate, an authentication level of the present file, a total number of files included, information on a file included, and a maker information. Transmission information compression and decompression device using a variable stream. The method of claim 70, The apparatus for compressing and decompressing transmission information using a flexible multi-channel and a variable stream on the Internet, wherein a setting value of a frame size changed according to a communication environment is recorded in the data rate. The method of claim 70, The multi-channel and variable streams on the Internet are characterized in that the authentication level of the present file is classified into a public file, a local file, a server file, and an ID file. Transmission information compression and decompression device using. The method of claim 70, And a total number of files included in the AOT file is recorded in the total number of files included in the transmission information compression and decompression apparatus using the flexible multi-channel and variable streams on the Internet. The method of claim 70, Transmission information compression and decompression apparatus using the flexible multi-channel and variable stream on the Internet, characterized in that the information of each file included in the AOT file is recorded in the information of the included file. The method of claim 70, The producer information compression and decompression apparatus using the flexible multi-channel and variable stream on the Internet, characterized in that the production information of the AOT file is recorded.