JPH06188845A - Simultaneous multi-address system for picture information - Google Patents

Abstract

PURPOSE:To enable G4FAX simultaneous multi-address communication using a broadcasting form. CONSTITUTION:MMR encoded picture information related to a G4 protocol outputted from a G4FAX 46 is converted into the MR (T=0) encoded picture information related to an application protocol in a master station 42 and is transmitted through a satellite channel to respective terminal stations 44 in the broadcasting form. In the terminal stations 44 related to the G4FAX 52, the MR encoded picture information related to the application protocol is inversely converted to the MMR encoded picture information related to the G4FAX and is outputted to the G4FAX 52. Since the broadcasting form is realized, interchangeability, versatility and maintainability are improved and cost is reduced. Since broadcasting by MR codes is performed, the omission of the picture information can be prevented by a page unit.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a facsimile (hereinafter referred to as
The present invention relates to a system for simultaneously broadcasting image information sent from a fax) to a plurality of terminal stations, that is, a system for simultaneously broadcasting image information.

[0002]

2. Description of the Related Art For example, in a disaster prevention radio system or the like, FAX simultaneous broadcast using a satellite line is performed. FIG. 8 shows a schematic configuration of the G3 FAX simultaneous broadcast system. The system shown in this figure is based on the master station 1
It is composed of 0 and a plurality of terminal stations 12. Master station 10
The line 14 connecting between the terminal station 12 and the terminal station 12 is, for example, VHF.
It is a line or a satellite line via an artificial satellite. The master station 10 inputs image information from the CCITT standard G3 FAX 16, and transmits it to each terminal station 12 through the line 14 by the T30 modification procedure. The terminal station 12 supplies this image information to the corresponding G3 FAX 18. By using such a system, the same image information can be simultaneously broadcast from the master station 10 side to the terminal station 12 side.

As CCITT standard FAX, G3F
There is G4FAX, which has higher image quality and higher speed than AX. In recent years, along with the development of digital circuits represented by ISDN, the demand for G4 FAX having such advantages has increased. There is a demand for the use of G4 FAX even in the FAX simultaneous broadcasting system. FIG. 9 shows G4 according to a conventional example.
The configuration of the FAX broadcast system is shown.

The system shown in this figure comprises a master station 20 and a plurality of terminal stations 22. The master station 20
Image information is input from the corresponding G4 FAX 24 and transmitted to each terminal station 22. Each terminal station 22 sends the image information transmitted from the master station 20 to the corresponding G4 FAX 26.

Here, the master station 20 and each terminal station 22 are connected by individual lines 28. Master station 20
Is composed of an interface 30 with the G4 FAX 24, a memory 32 for accumulating image information obtained via the interface 30, and a plurality of interfaces 34 corresponding to the respective lines 28. In addition, each terminal station 22
The line interface 36 relating to the connection with the line 28, the memory 38 for accumulating the image information received via the interface 36, and the image information on the memory 38 are stored in the G4 FAX 26.
An interface 40 for supplying the

[0006]

As described above, the conventional G
In the 4FAX simultaneous broadcasting system, the master station and each terminal station had to be connected by individual lines. This is because G3FAX adopts an encoding method for each line using MR (Modified READ: Modified Huffman) and MH (Modified Huffman) codes, whereas G4FAX uses MMR (Modified MR).
This is because a page-based complete two-dimensional encoding method using a modified modified read) code is adopted.

Since such an encoding system is adopted, in G4FAX, an FCS (frame check sequence) is inserted in each frame to make it error-free in order to reproduce the image information of each page. Therefore, full-duplex communication must be performed. Such full-duplex communication can be performed when the transmitting side and the receiving side have a one-to-one correspondence, but in the case of a broadcast format such as the conventional G3 FAX simultaneous broadcast system This cannot be done because the reception confirmation signal cannot be returned. Therefore, conventionally, as shown in FIG. 9, the master station and each terminal station do not have to be connected to each other by a separate line, the equipment becomes huge, and there are disadvantages in terms of maintainability and cost. . Further, G4FAX having a special function may be used, but in this case as well, there are disadvantages in terms of versatility, compatibility, maintainability, cost, and the like.

The present invention has been made to solve the above problems, and has a general purpose, compatibility,
G4 does not cause disadvantages in terms of maintainability, cost, etc., and does not cause loss of image information in page units.
The purpose is to enable simultaneous broadcasting of image information by fax or the like.

[0009]

In order to achieve such an object, in the method according to claim 1 of the present invention, image information completely two-dimensionally encoded in page units is encoded in line units. It is characterized in that the image information is converted into image information, the converted image information is broadcast, and the image information obtained by receiving the broadcast is converted into completely two-dimensionally encoded image information in page units.

According to a second aspect of the present invention, the image information completely two-dimensionally encoded in page units is image information encoded in the MMR encoding system, and is encoded in line units. The image information is image information coded by the MR coding method and / or the MH coding method.

A system according to claim 3 of the present invention is a simultaneous command device for converting image information completely encoded two-dimensionally in page units into image information coded in line units and outputting the same. A broadcasting system in which image information to be output is broadcast from a transmitting station and is received by a receiving station, and a predetermined number of terminal devices that convert the received image information into completely two-dimensionally encoded image information in page units and output the image information, It is characterized by having.

Further, the system according to claim 4 of the present invention is a simultaneous command device for converting image information completely encoded two-dimensionally in page units into image information encoded in line units, and outputting the image information.
It is characterized in that it has a broadcasting system for broadcasting the image information output from the simultaneous command device from the transmitting station and receiving it by the receiving station, and a predetermined number of terminal devices for outputting the received image information.

The system according to claim 5 of the present invention is characterized in that the simultaneous command device outputs a program as image information, and the terminal device is loaded with a program supplied as image information.

The simultaneous command device according to claim 6 of the present invention is
A first interface for inputting completely two-dimensionally encoded image information from a FAX, a means for converting the image information input by the first interface into image information encoded in line units, and conversion It is characterized in that it is provided with a first storage means for storing subsequent image information and a second interface for outputting the stored image information to a broadcasting system.

A simultaneous command device according to claim 7 of the present invention is
A third interface for inputting image information encoded in units of rows and including fill bits, and a first accumulating means for removing the fill bits from the image information input from the third interface and removing the fill bits from the image information. And means for accumulating in the.

According to the eighth aspect of the present invention, the terminal device has a fourth interface for inputting image information encoded line by line from a broadcasting system, and page information for image information input by the fourth interface. A unit for converting image information completely encoded two-dimensionally, and a second unit for accumulating the converted image information
And a fifth interface for sending the stored image information to the FAX.

[0017]

In the system according to the first aspect of the present invention, first, the image information completely two-dimensionally encoded in page units is converted into the image information encoded in line units. The converted image information is broadcast and received. The received image information is image information encoded on a line-by-line basis, and this image information is converted into complete two-dimensional encoded image information on a page-by-page basis. Therefore, in the present invention, when trying to broadcast image information that is completely two-dimensionally encoded in page units such as image information from G4FAX, the image information is once encoded in line units. Since the image information is converted and broadcast, the data error that occurs during broadcasting does not spread and the image information is not lost page by page at the receiving side. In addition, G4FA with special functions
Since the broadcast format is realized without using X, etc.,
The disadvantages in terms of versatility, compatibility, maintainability, and cost are suppressed / prevented.

Further, in claim 2 of the present invention, MM
The R encoded image information is broadcast as MR and / or MH encoded image information. The MMR code is an encoding method used in G4FAX, and the MR code and the MH
The code is an encoding method used in G3 FAX. Therefore, according to the second aspect, it is possible to construct a simultaneous broadcast system using G4 FAX. This allows for high resolution,
High-speed simultaneous broadcast is realized.

The system of claim 3 is the system of claim 1 described above.
Is a system constructed by using the simultaneous command device, broadcasting system, and terminal device. That is, in the simultaneous command device, image information completely encoded two-dimensionally in page units (for example, image information by MMR code in G4 FAX)
Is converted into image information encoded in units of rows (for example, image information by MR code and MH code in G3 FAX) and output. This image information is transmitted from the broadcasting transmitting station to the receiving station. The receiving station supplies the received image information to the terminal device. In addition, in the terminal device, the received image information is converted into image information that is completely two-dimensionally encoded page by page, and is output to, for example, G4 FAX. As described above, by using the above-described method, it is possible to construct a simultaneous broadcast system relating to image information that is completely two-dimensionally encoded page by page.

In the system according to claim 4, a terminal device for outputting the received image information is used instead of the terminal device according to claim 3. That is, the device that receives the image information supplied from the terminal device is not the device that inputs the image information that is completely two-dimensionally encoded page by page (for example, G4FAX), but the device related to the image information encoded by line (for example, G4FAX). G3 FAX), it is not necessary to convert the image information in the terminal device. That is, in claim 4, the configuration of the terminal device side relating to the broadcast system is diversified, and versatility is expanded.

In the system according to the fifth aspect, the program is output from the simultaneous command device as image information. This program is loaded on the terminal device side. The terminal device operates according to the loaded program. That is, in the present claim, the program is simultaneously downloaded to the terminal devices as is the case with the simultaneous broadcast of the image information.

In the simultaneous command device according to claim 6,
A simultaneous command device suitable for constructing the system according to claim 1 or 2 as a system or usable when constructing the system according to claims 3 to 5 is realized. That is, in this simultaneous command device, image information completely encoded in two-dimensional units (image information related to G4FAX) is input from the FAX by the first interface, and the input image information is accumulated in line units. Image information (eg G3
Image information related to FAX). The converted image information is accumulated, and the accumulated image information is output to the broadcasting system by the second interface. In this way, the simultaneous command device suitable for the present invention is realized.

In the simultaneous command device according to claim 7,
Image information encoded line by line is input by the third interface, subjected to predetermined processing on the image information, and then stored in the first storage means. The image information stored in the first storage means is output to the broadcasting system by the second interface as described above. Therefore, in the present invention, it is possible to simultaneously command the complete two-dimensionally encoded image information in page units and simultaneously instruct the image information encoded in line units. In addition, when the image information input by the third interface is accumulated, the fill bit is removed from the image information, so that the fill bit (filled in order to maintain the length of one line is filled like normal G3 FAX. Even when the image information is input from a device that requires a certain bit), the image information can be transmitted to the terminal device side at a higher speed than those devices.

In the terminal device according to claim 8, a terminal suitable for constructing the system according to claim 1 or 2 as a system, or usable when constructing the system according to claims 3 to 5 The device is realized. In this terminal device, the image information encoded in units of lines is input from the broadcasting system through the fourth interface, and the input image information is converted into image information that is completely two-dimensionally encoded in units of pages. The above is stored in the second storage means. The image information accumulated in the second accumulator is F by the fifth interface.
It is sent to AX. In this way, the terminal device suitable for the present invention is realized.

[0025]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 shows a G4F according to an embodiment of the present invention.
The configuration of the AX broadcast system is shown. As shown in this figure, the present embodiment comprises a master station 42 and a plurality of terminal stations 44. The master station 42 is G4FAX4
6 or the image information output from the G3 FAX 48 is transmitted to the artificial satellite 50, and the terminal station 44
Receives the image information transmitted from the artificial satellite 50. In this figure, three stations are shown as terminal stations, two of which output the received image information to the corresponding G4 FAX 52, and the remaining one output to the corresponding G3 FAX 54.

Such a system, that is, G4 FAX
The system that enables the simultaneous broadcast from 46 to the G4 FAX 52 using the broadcast format is a master station 42 and a terminal station 44.
It is realized by protocol conversion and image information conversion in. FIG. 2 shows the internal configuration of the master station 42 in this embodiment.

As shown in this figure, the master station 42 has a broadcast command device 56, a packet multiplexer 58 and a satellite earth station 60. The simultaneous command device 56 is a G4 FAX.
Image information is input from 46, the protocol relating to the input image information is converted from the G4 protocol to the application protocol, the image information is converted from the MMR code to the MR (T = 0) code, and sent to the packet multiplexer 58 as a packet. To do. The packet multiplexer 58 multiplexes the packets of the supplied image information and supplies the packets to the satellite earth station 60. The satellite earth station 60 transmits image information related to the multiplexed packet to the artificial satellite 50.

The simultaneous command device 56 includes a G4 FAX interface 62, a protocol conversion image information conversion unit 64, a memory 66 and a line interface 68. G4F
The AX interface 62 is an interface related to the connection with the G4 FAX 46, and the protocol conversion image information conversion unit 64 executes the protocol conversion and the image information conversion according to the features of this embodiment. The memory 66 is a memory that stores the image information from the protocol conversion image information conversion unit 64, and the line interface 68 is an interface related to connection with a satellite line.

The protocol conversion image information conversion unit 64 has a structure as shown in FIG. 3A, for example. That is, the protocol conversion image information conversion unit 64 uses the CODEC
70 and DRAM 74. The protocol conversion and the image information conversion in the protocol conversion image information conversion unit 64 are executed in the procedure as shown in FIG. 3B, for example.

That is, from G4 FAX 46 to G4 FAX
Image information input via the interface 62 is CCI
It conforms to TT standard G4 FAX, and MMR code is adopted as an encoding method. This image information is G4
After being input via the FAX interface 62, once D
It is stored in the memory 66 configured as a RAM. CO
The DEC 70 decodes the image information on the DRAM 66 and converts it into raw data. Raw data is temporarily stored in the DRAM 74. The CODEC 70 reads this raw data from the DRAM 74, performs MR encoding while complying with the application protocol, and temporarily stores this in the DRAM 66. The image information on the DRAM 66 is supplied to the packet multiplexer 58 via the line interface 68.

The information supplied to the packet multiplexer 58 in this way, that is, the MR encoded image information, is
As described above, it is transmitted to each terminal station 44 via the satellite line related to the artificial satellite 50. In the present embodiment, for example, a layer structure as shown in Table 1 is used as the protocol. As shown in Table 1, the lowest layer of the protocol according to this embodiment, that is, layer 1 is ISO2.
110 (RS232C), Layer 2 is X. 25
At the link level, Layer 3 is X. It conforms to 25 packets. Note that the protocol standards of each of these layers are different standards depending on the selection of the line.

[0033]

[Table 1] The application protocol of the highest layer is a protocol as shown in FIG. 4 and Table 2. As shown in FIG. 4, in the application protocol,
Header information is first transmitted from the simultaneous command device 56 to the reception conversion device of the terminal station 44, then page information and image data information relating to each page are transmitted, and the page information and image data information are transmitted according to the number of pages. After being repeatedly transmitted, the end information is transmitted. Table 2 shows each information.

[0034]

[Table 2] In addition, the simultaneous command device 56 of the present embodiment further includes a G3F
An AX interface 76 and a protocol conversion image information conversion unit 78 are provided. G3 FAX interface 76
The image information is input from the G3 FAX 48 via the exchange 80, and the protocol conversion image information conversion unit 78 performs protocol conversion and image information conversion on the image information input via the G3 FAX interface 76. Image information after conversion is in memory 6
6 and is subject to simultaneous broadcast in the same manner as the image information related to G4 FAX 46.

The G3 FAX 48 is a so-called simultaneous request FAX. The G3 FAX 48 relating to the batch of requests is provided, for example, on the side of each terminal station 44. When there is a simultaneous broadcast request from each terminal station 44 using the G3 FAX 48, the simultaneous command device 56 simultaneously broadcasts the image information related to this request.

At this time, the protocol conversion image information conversion unit 78
Removes the fill bit from the input G3 image information. In G3 FAX, usually 1 line 20m
Fill bits are filled in the image information of each line in order to maintain the line length of sec. The protocol conversion image information conversion unit 78 has a function of removing the fill bit which is not necessary for the simultaneous broadcast using the satellite line. Therefore, in this embodiment, more efficient transmission is possible without the fill bit removed.

FIG. 5 shows the three terminal stations 4 shown in FIG.
4 shows the configuration of two terminal stations 44 that output image information to the G4 FAX 52. The terminal stations 44 shown in the figure each include a satellite earth station 82, a packet multiplexer 84, and a reception converter 86.

The satellite earth station 82 receives the image information supplied via the satellite line and sends it to the packet multiplexer 8.
Output to 4. The packet multiplexer executes a packet demultiplexing process on the supplied information, and supplies the resulting image information on each packet to the reception conversion device 86. The reception conversion device 86 has a line interface 88, a protocol conversion image information conversion unit 90, a memory 92, and a G4 FAX interface 94, respectively. The line interface 88 is, for example, an X. 25 (V.
28) which is an interface of the packet multiplexer 8
Image information is input from 4 and protocol conversion image information conversion unit 9
Supply to 0. The protocol conversion image information conversion unit 90 performs predetermined protocol conversion and image information conversion on the supplied image information, and stores the image information in the memory 92. The image information stored in the memory 92 is supplied to the G4FAX 52 via the G4FAX interface 94.

Therefore, the protocol conversion image information conversion unit 90
The protocol conversion executed in step S4 is the conversion from the application protocol in this embodiment to the protocol related to G4FAX, and the image information conversion is MR (T =
0) code to MMR code conversion. 6A shows the internal configuration of the protocol conversion image information conversion unit 90.
In (b), the protocol and the flow of image information conversion in the protocol conversion image information conversion unit 90 are respectively shown.

First, as shown in FIG. 6 (a), the protocol conversion image information conversion section 90 uses the CODEC 96 and D.
It is composed of a RAM 98. As shown in FIG. 6B, the image information input from the packet multiplexer 84 via the line interface 88 is image information MR-encoded according to the application protocol of this embodiment. The memory 92 configured as a DRAM temporarily stores this image information. The CODEC 96 converts the image information on the DRAM 92 into raw data and stores it in the DRAM 98.
The raw data on the DRAM 98 is MMR encoded by the CODEC 96 and stored again on the DRAM 92.
The image information on the DRAM 92 is sent to the G4FAX 52 via the G4FAX interface 94.

FIG. 7 shows the G3F among the three terminal stations 44.
The configuration of the terminal station 44 that supplies image information to the AX 54 is shown. The terminal station 44 shown in this figure has a satellite earth station 82 and a packet multiplexer 84, similar to the terminal station 44 shown in FIG. Further, the reception exchange apparatus 100 of the terminal station 44 has a line interface 88 and a memory 92 similar to the reception conversion apparatus 86 of FIG. The protocol conversion image information conversion unit 102 included in the reception conversion device 100 adds a fill bit to the image information related to the application protocol input via the line interface 88 to convert the image information related to the G3 FAX into the G3 FAX 54. Converted to image information that can be output. The image information stored in the memory 92 is G3.
It is supplied to the G3 FAX 54 via the FAX interface 102.

Thus, in this embodiment, G4F
Since the G4FAX simultaneous broadcast system is constructed using the broadcast format without adding special functions to the AX46 and 52, it is possible to attach an individual line between each master station and the terminal station and to add special functions. Therefore, problems such as increase in cost, deterioration of versatility and compatibility, deterioration of maintainability, etc. do not occur. Further, since the above-mentioned application protocol is used in the satellite line, the data error generated in the satellite line is limited to the line loss at most, and the image information is not lost page by page. That is, FAX 46, 4
From the viewpoint of 8, 52, 54, etc., individual transparent full-duplex communication is possible. In addition, G4FAX4
High-resolution and high-speed are realized by simultaneous broadcast by 6, 52.

Further, the image information related to the simultaneous broadcast is G4F.
It can be given not only by AX46 but also by G3FAX48 related to all requests. At that time, since the fill bit is removed from the image information related to G3, it is possible to perform the broadcast with a higher transmission efficiency. Further, since the image information used in the satellite line is MR-encoded image information similar to G3FAX, the terminal station 44 side simply performs the process of adding a fill bit, and the image related to the simultaneous broadcast is displayed. It becomes possible to use the G3 FAX 54 as a FAX that outputs information.

Further, in the application protocol according to this embodiment, the header information is transmitted prior to the page information and the image data information. By using this header information, it is possible to download the program from the master station 42 to the terminal station 44.

The information transmitted from the simultaneous command device 56 to the reception conversion device 86 and the reception conversion device 100 has the contents as shown in Table 2 above.

That is, the header information is composed of simultaneous classification, date and time information, and parent FAX identification information, and the page information is page, line density, coding method, number of line pixels, number of area information bytes, image information division. And image data checksum. The image data information includes a page number, an in-page division number, and image data. The end information is composed of page numbers.

Among the pieces of information constituting the header information, the broadcast type is information indicating whether the broadcast broadcast to be performed from now on is a test broadcast, whether acceptance confirmation is included, program download, etc. The date and time information is information indicating the date and time of the simultaneous broadcast. The parent FAX identification information is information for identifying which FAX is the FAX that supplies the image information related to the simultaneous broadcast.

Here, if the simultaneous classification is set to download, the system can be used to download a program from the master station 42 side to the terminal station 44 side. That is,
If the batch type in the header information is a program download and the image information is a program, the terminal station 4
It is possible to download to the 4 side. By doing so, it becomes possible to download the programs all at once. Although the above description is based on the packet type, the continuous transmission type may be used. Further, the present invention is not limited to G4 FAX, but can be applied to simultaneous broadcast of image information output from a personal computer.

[0049]

As described above, according to the first aspect of the present invention.
According to the method of (1), the image information encoded in page units is converted into image information encoded in line units and then broadcast, and the image information after reception is transmitted in page units in complete 2D. Since the image information is inversely converted into the encoded image information, it is possible to perform the simultaneous broadcast of the image information completely two-dimensionally encoded page by page, for example, the MMR encoded image information. At this time, even though the image information to be broadcast simultaneously is the image information that is completely two-dimensionally encoded page by page, the page information will not be missing in the image information after the inverse conversion. . In addition, since the broadcasting format is realized without giving special functions to G4FAX and the like, it is possible to construct a system having excellent compatibility, versatility, and maintainability, and reduced implementation cost.

According to the method of claim 2, since the MMR encoded image information is broadcast after being converted into the MR code and / or the MH code, for example, a system for simultaneously broadcasting the image information by G4 FAX. Can be built.

According to the system of claim 3, the effect of claim 1 can be obtained. According to the system of claim 4, since the terminal device that outputs the received image information, that is, the image information encoded in units of lines is used as the terminal device, a device connected to the terminal device, for example, G3 FAX can be used as the FAX, and the versatility of the apparatus is improved.

According to the system of the fifth aspect, the program can be downloaded to each terminal device by using the image information, so that the download can be simultaneously broadcast.

According to the simultaneous command device of the sixth aspect, it is possible to preferably realize the simultaneous command device in each system described above.

According to the simultaneous command device according to the seventh aspect, the simultaneous command device in each of the above-mentioned systems can be preferably realized, and the G3F can be realized by using the third interface.
Since the image information related to AX etc. is stored, G3
It is possible to broadcast image information related to FAX etc. all at once. Moreover, since the fill bit is removed at that time, highly efficient transmission is possible.

According to the terminal device of the eighth aspect, a terminal device suitable for each system described above can be realized.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of a G4 FAX simultaneous broadcast system according to an embodiment of the present invention.

FIG. 2 is a block diagram showing an example configuration of a master station in this embodiment.

FIG. 3 is a diagram for explaining a protocol / image information conversion method when image information is input from the G4 FAX in the master station, and FIG. 3A shows the configuration of the protocol conversion image information conversion unit. (B) is a diagram showing a flow of protocol / image information conversion.

FIG. 4 is a diagram showing the contents of an application protocol in this embodiment, particularly the flow of data transmission / reception from a simultaneous command device to a reception conversion device.

FIG. 5 is a block diagram showing an example configuration of a terminal station according to the present embodiment, particularly a terminal station related to G4FAX.

FIG. 6 is a diagram for explaining a protocol / image information conversion method implemented by a terminal station according to G4 FAX in this embodiment, and FIG. 6A shows the configuration of a protocol conversion image information conversion unit. (B) is a diagram showing a flow of protocol / image information conversion.

FIG. 7 is a block diagram showing an example configuration of a terminal station related to G3 FAX among the terminal stations in this embodiment.

FIG. 8 is a block diagram showing the configuration of a G3 FAX simultaneous broadcast system.

FIG. 9 is a block diagram showing a configuration of a G4 FAX simultaneous broadcast system according to a conventional example.

[Explanation of symbols]

42 parent station 44 terminal station 46,52 G4FAX 48,54 G3FAX 50 satellite 56 simultaneous commander 58,84 packet multiplexer 60,82 satellite earth station 62,94 G4FAX interface 64,78,90,102 protocol conversion image information conversion Part 66,92 Memory (DRAM) 68,88 Line interface 70,96 CODEC 74,98 DRAM

Claims (8)

[Claims] 1. A method for converting image information completely encoded in two-dimensional units in page units into image information encoded in units of lines, broadcasting the converted image information, and converting image information obtained by receiving the broadcast. A simultaneous broadcasting system for image information, which is characterized by converting image information that is completely two-dimensionally encoded page by page. 2. The method according to claim 1, wherein the image information completely two-dimensionally encoded in page units is image information encoded by the modified modified read encoding system, and is encoded in line units. A simultaneous broadcast method of image information, wherein the image information is image information encoded by a modified read encoding method and / or a modified Huffman encoding method. 3. A simultaneous command device for converting image information completely encoded two-dimensionally in page units into image information coded in line units and outputting the image information, and image information output from the simultaneous command device from a transmitting station. Image information characterized by having a broadcasting system for broadcasting and receiving by a receiving station, and a predetermined number of terminal devices for converting the received image information into completely two-dimensionally encoded image information in page units and outputting the image information. Broadcast system. 4. A simultaneous command device for converting image information completely page-dimensionally coded in page units into image information coded in line units and outputting the image information, and image information output from the simultaneous command device from a transmitting station. A broadcast system for image information, comprising: a broadcast system for broadcasting and reception by a receiving station; and a predetermined number of terminal devices for outputting the received image information. 5. The system according to claim 3 or 4, wherein the simultaneous command device outputs a program as image information, and the terminal device is loaded with the program supplied as the image information. Broadcast system. 6. A first interface for inputting completely two-dimensionally encoded image information page by page from a facsimile, and converting the image information input by the first interface into image information encoded in line units. A simultaneous command device comprising: a means for performing the conversion, a first storage means for storing the converted image information, and a second interface for outputting the stored image information to a broadcasting system. 7. The simultaneous command device according to claim 6, wherein a third interface for inputting image information encoded in line units and including fill bits, and fill bits from the image information input by the third interface A means for accumulating the image information after the removal and the removal of the fill bit in the first accumulation means, the simultaneous command device. 8. A fourth interface for inputting image information encoded on a line-by-line basis from a broadcasting system, and image information input by the fourth interface is converted into image information completely encoded two-dimensionally on a page-by-page basis. A terminal device comprising: a converting unit; a second storing unit that stores the converted image information; and a fifth interface that sends the stored image information to a facsimile.