JP7187872B2 - Transmission device, transmission system, transmission method and program - Google Patents

Description

The present invention relates to a transmission device, transmission system, transmission method and program.

When image data is transmitted to a destination by a facsimile function, the image data is usually compressed and transmitted in order to reduce the amount of communication and shorten the communication time. Compression methods for image data in transmission by a fax function (hereinafter sometimes simply referred to as "fax transmission") include JBIG (Joint Bi-level Image Experts Group), MMR (Modified Modified Read), and MR (Modified Read). , and MH (Modified Huffman). However, when the image data is compressed during fax transmission, there is a problem in the compression process, and it is not compressed correctly. As a result, an error occurs in the decompression process on the receiving side, and the transmission may fail. .

In this way, as a technique for suppressing the occurrence of facsimile transmission errors and increasing the transmission success rate, a technique has been started in which transmission histories of data transmission destinations are stored and a method with a large number of successful transmissions is selected. (For example, Patent Document 1).

However, even if a method is selected based on the transmission history stored by itself, as in the technique described in Patent Document 1, if there is a problem in the compression processing of the selected method, the image data will be lost. There is a problem that the data cannot be properly compressed, resulting in a decompression error on the receiving side and a failure in transmission. Also, there is a high possibility that other transmitters equipped with the same compression function will have similar problems, and there is a possibility that decompression of the received image will fail due to a defect in the compression function mounted in the receiver. Therefore, if the compression method is determined only by the transmission history of itself (the transmitter), there is also the problem that the determination accuracy of the compression method that does not result in transmission failure is low.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a transmission device, a transmission system, a transmission method, and a program that can further suppress the occurrence of facsimile transmission errors.

In order to solve the above-described problems and achieve the object, the present invention performs normal compression processing on target data for fax transmission with respect to the total number of fax transmissions for each compression type, and compresses the data to the destination. storing first transmission success rate information indicating a success rate of facsimile transmission, which is a ratio of the number of times the target data is normally transmitted and the target data compressed at the destination is normally decompressed ; a storage unit for normally compressing data to be received by facsimile from a receiving device of a facsimile transmission destination with respect to the total number of facsimile receptions when data is transmitted by facsimile, and receiving the data from the transmission source; Reception success rate information indicating the success rate of fax reception, which is the ratio of the number of times the target data compressed to the device is normally transmitted and the compressed target data is normally decompressed by the receiving device and when the data is faxed, from other transmission devices connected via a network, for each compression type, the other transmission device with respect to the total number of fax transmissions normally compresses the target data for facsimile transmission, normally transmits the compressed target data from the other transmission device to the destination, and normally decompresses the compressed target data at the destination. a second acquiring unit that acquires second transmission success rate information indicating a success rate of fax transmission that is a ratio of the number of times that is performed ; the first transmission success rate information stored in the storage unit; a determination unit that determines a compression type of the data based on the reception success rate information acquired by the acquisition unit and the second transmission success rate information acquired by the second acquisition unit; and the determination unit. and a transmitting unit configured to transmit the data compressed by the compressing unit to the receiving device.

According to the present invention, it is possible to further suppress the occurrence of facsimile transmission errors.

FIG. 1 is a diagram showing an example of the overall configuration of an image transmission system according to an embodiment. FIG. 2 is a diagram illustrating an example of the hardware configuration of the image transmission device according to the embodiment; FIG. 3 is a diagram illustrating an example of the functional block configuration of the image transmission device according to the embodiment. FIG. 4 is a diagram illustrating an example of a transmission success rate table stored in the image transmission device according to the embodiment; FIG. 5 is a sequence diagram showing an example of the flow of data transmission processing in the image transmission system according to the embodiment. FIG. 6 is a diagram for explaining the operation of judging the compression type with priority given to the receiver side. FIG. 7 is a diagram for explaining the operation of judging the compression type with priority given to the transmitter side. FIG. 8 is a diagram for explaining the operation of judging the compression type with priority given to the communication time.

Embodiments of a transmission device, a transmission system, a transmission method, and a program according to the present invention will be described in detail below with reference to the drawings. In addition, the present invention is not limited by the following embodiments, and the constituent elements in the following embodiments can be easily conceived by those skilled in the art, substantially the same, and so-called equivalent ranges. is included. Furthermore, various omissions, replacements, changes and combinations of components can be made without departing from the gist of the following embodiments.

(Overall configuration of image transmission system)
FIG. 1 is a diagram showing an example of the overall configuration of an image transmission system according to an embodiment. An overall configuration of an image transmission system 1 according to this embodiment will be described with reference to FIG.

As shown in FIG. 1, an image transmission system 1 (transmission system) includes image transmission devices 10 a to 10 c and an image transmission device 20 . The image transmission apparatuses 10a to 10c are arranged in an area A (for example, in a specific company) and are connected by a LAN (Local Area Network) 2 so as to be capable of data communication. The image transmission device 20 is located in an area B different from the area A (for example, in a company different from the company in the area A).

The image transmission device 10a is, for example, an MFP (Multifunction Peripheral), and can transmit and receive data to and from the image transmission device 20 via the telephone network 3 using a facsimile function. Here, MFP refers to a multi-function device having at least two functions out of a copy function, a printer function, a scanner function, and a facsimile function. However, it is assumed that the image transmission device 10a has at least a facsimile function. The image transmission apparatuses 10b and 10c are MFPs having the same configuration as the image transmission apparatus 10a, but the illustration of the configuration for transmitting data via the telephone network 3 is omitted in FIG. 1 for the sake of convenience.

Note that the image transmission apparatuses 10a to 10c are simply referred to as "image transmission apparatus 10" when referring to arbitrary image transmission apparatuses or collectively. Further, although the image transmission apparatuses 10a to 10c are assumed to be MFPs, they are not limited to this. For example, they may be fax machines specialized for fax functions. It will be explained assuming that

The image transmission device 20 is, for example, an MFP, and can transmit and receive data to and from the image transmission device 10a via the telephone network 3 using the facsimile function. Similarly, the image transmission device 20 may be, for example, a facsimile device, but in this embodiment, it is assumed to be an MFP.

Telephone network 3 includes at least one of an analog line and a digital line.

(Hardware configuration of image transmission device)
FIG. 2 is a diagram illustrating an example of the hardware configuration of the image transmission device according to the embodiment; The hardware configuration of the image transmission apparatus 10 according to this embodiment will be described with reference to FIG. The hardware configuration of the image transmission device 20 is also the same.

As shown in FIG. 2, in the image transmission apparatus 10 according to the present embodiment, a controller 300, an operation display unit 310, an FCU (Facsimile Control Unit) 320, a plotter 331, and a scanner 332 are connected to PCI (Peripheral Component Interface). ) are connected by a bus.

The controller 300 is a device that controls the overall image transmission apparatus 10 , drawing, communication, control of various engines, and input from the operation display unit 210 .

The operation display unit 310 is, for example, a touch panel or the like, and is a device that receives input to the controller 300 (input function) and displays (display function) the state of the image transmission device 10. Circuit 306 directly.

The FCU 320 is a device that implements a facsimile function, and is connected to the ASIC 206 via a PCI bus, for example. In the example shown in FIG. 2, the FCU 220 has both the G3 fax transmission function for analog lines and the G4 fax transmission function for digital lines.

A plotter 331 is a device that implements a printing function, and is connected to the ASIC 306 via a PCI bus, for example. A scanner 332 is a function that implements a scanner function, and is connected to the ASIC 306 via a PCI bus, for example.

The controller 300 includes a CPU (Central Processing Unit) 301, a system memory (MEM-P) 302, a northbridge (NB) 303, a southbridge (SB) 304a, a network I/F 304b, and a USB (Universal Serial Bus). ) I/F 304 c , Centronics I/F 304 d , ASIC 306 , local memory (MEM-C) 307 , and auxiliary storage device 308 .

A CPU 301 performs overall control of the image transmission apparatus 10, is connected to a chipset consisting of a system memory 302, a northbridge 303 and a southbridge 304a, and is connected to other devices via this chipset.

A system memory 302 is used as a memory for storing programs and data, a memory for developing programs and data, a drawing memory for a printer, and the like, and includes a ROM (Read Only Memory) and a RAM (Random Access Memory). is doing. Of these, the ROM is a read-only memory used as a memory for storing programs and data, and the RAM is a writable and readable memory used as a memory for developing programs and data and as a drawing memory for printers. .

The north bridge 303 is a bridge for connecting the CPU 301, the system memory 302, the south bridge 304a, and the AGP (Accelerated Graphics Port) bus 305, and includes a memory controller that controls reading and writing with respect to the system memory 302, a PCI master and AGP target.

The south bridge 304a is a bridge for connecting the north bridge 303, PCI devices and peripheral devices. The south bridge 304a is connected to the north bridge 303 via the PCI bus, and network I/F 304b, USB I/F 304c, Centronics I/F 304d, etc. are connected to the PCI bus.

Network I/F 304b is an interface for communicating data with other devices via a network. The network I/F 304b is, for example, a NIC (Network Interface Card) conforming to TCP (Transmission Control Protocol)/IP (Internet Protocol).

The USB I/F 304c is an interface for communicating data with various devices conforming to the USB standard. A Centronics I/F 304d is a parallel interface for connecting a printer or the like.

The AGP bus 305 is a bus interface for graphics accelerator cards proposed to speed up graphics processing. AGP bus 305 is a bus that speeds up graphics accelerator cards by directly accessing system memory 302 with high throughput.

The ASIC 306 is an image processing IC (Integrated Circuit) having hardware elements for image processing, and serves as a bridge that connects the AGP bus 305, PCI bus, auxiliary storage device 308, and local memory 307, respectively. The ASIC 306 includes a PCI target and AGP master, an arbiter (ARB) that forms the core of the ASIC 306, a memory controller that controls the local memory 307, and a plurality of DMACs (Direct Memory Access) that rotate image data by hardware logic. controller) and a PCI unit that transfers data between the plotter 331 and the scanner 332 via the PCI bus. An FCU 320, a plotter 331 and a scanner 332 are connected to the ASIC 306 via, for example, a PCI bus. The ASIC 306 is also connected to a host PC (Personal Computer) and a network (not shown).

A local memory 307 is a memory used as a copy image buffer and an encoding buffer.

The auxiliary storage device 308 is a storage device such as a HDD (Hard Disk Drive), an SSD (Solid State Drive), an SD (Secure Digital) card, or a flash memory, and stores image data, programs, font data, and storage for accumulating forms.

(Configuration and Operation of Functional Blocks of Image Transmission Device)
FIG. 3 is a diagram illustrating an example of the functional block configuration of the image transmission device according to the embodiment. FIG. 4 is a diagram illustrating an example of a transmission success rate table stored in the image transmission device according to the embodiment; The functional block configuration of the image transmission apparatus 10 according to this embodiment will be described with reference to FIGS. 3 and 4. FIG. Note that the functional block configuration of the image transmission device 20 is also the same.

As shown in FIG. 3, the image transmission apparatus 10 according to this embodiment includes a fax transmission unit 101 (transmission unit), a fax reception unit 102 (reception unit), a communication unit 103, and a transmission success rate notification unit 104. , a reception success rate notification unit 105 (notification unit), a transmission success rate acquisition unit 106 (second acquisition unit), a reception success rate acquisition unit 107 (first acquisition unit), and a compression type determination unit 108 (determination unit) , success rate update unit 109 (update unit), image compression unit 110 (compression unit), image decompression unit 111 (decompression unit), storage unit 112, input unit 113, display control unit 114, display and a part 115 .

A facsimile transmission unit 101 is a functional unit that facsimile-transmits data such as image data to a transmission destination by a facsimile function. Fax transmission unit 101 is implemented by execution of a program by FCU 320 and CPU 301 shown in FIG.

The facsimile receiving unit 102 is a functional unit that receives data such as image data from a transmission source by a facsimile function (hereinafter sometimes simply referred to as “fax reception”). Fax receiving unit 102 is realized by execution of a program by FCU 320 and CPU 301 shown in FIG.

The communication unit 103 is a functional unit that performs data communication with an external device via a network (for example, LAN2 shown in FIG. 1). Specifically, the communication unit 103 of the specific image transmission device 10 performs data communication with other image transmission devices 10 via the LAN2. Communication unit 103 is implemented by network I/F 304b shown in FIG. 2 and execution of a program by CPU 301. FIG.

In response to a request from another image transmission apparatus 10, the transmission success rate notification unit 104 refers to the storage unit 112 for the transmission success rate of facsimile transmission of the image transmission apparatus 10 itself to the other image transmission apparatus 10. , and notifies the requesting image transmission apparatus 10 via the communication unit 103 . The transmission success rate notification unit 104 is realized by executing a program by the CPU 301 shown in FIG. 2, for example.

The reception success rate notifying unit 105 stores the facsimile reception success rate of itself (for example, the image transmission apparatus 20), which is the facsimile transmission destination, in response to the call notification from the facsimile transmission source image transmission apparatus 10. 112, and notifies the image transmission apparatus 10 of the transmission source via the fax receiving section 102. FIG. Reception success rate notifying section 105 is implemented, for example, by execution of a program by CPU 301 shown in FIG.

The transmission success rate acquisition unit 106 acquires the facsimile transmission success rate for other image transmission apparatuses 10 on the same network (for example, LAN 2 shown in FIG. 2) as the image transmission apparatus 10 itself. It is a functional unit that transmits a notification request (transmission success rate acquisition request) via the communication unit 103 . Then, the transmission success rate acquisition unit 106 acquires, via the communication unit 103, the transmission success rate notified from the other image transmission device 10 in response to the transmission success rate acquisition request. The transmission success rate acquisition unit 106 is implemented, for example, by execution of a program by the CPU 301 shown in FIG.

The reception success rate acquisition unit 107 is a functional unit that acquires, via the fax transmission unit 101, the reception success rate of fax reception transmitted from the image transmission apparatus 10 that is the transmission source of the fax. The reception success rate acquisition unit 107 is implemented by executing a program by the CPU 301 shown in FIG. 2, for example.

The compression type determination unit 108 determines the facsimile transmission success rate of the image transmission apparatus 10 itself, the facsimile transmission success rate of the other image transmission apparatus 10 acquired by the transmission success rate acquisition unit 106, and the reception success rate. A functional unit that determines the compression type with the highest success rate or the highest compression rate based on the facsimile reception success rate of the destination image transmission apparatus 20 acquired by the rate acquisition unit 107. . The compression type determination unit 108 is realized, for example, by execution of a program by the CPU 301 shown in FIG.

After the facsimile transmission by the facsimile transmission unit 101 is performed, the success rate update unit 109 is stored in the storage unit 112 based on the reception result (reception success or failure, etc.) from the destination image transmission device 20. It is a functional unit that updates the transmission success rate of facsimile transmission as the image transmission device 10 itself. Further, after the facsimile reception by the facsimile reception unit 102, the success rate update unit 109 determines whether or not the received image data has been decompressed normally. This is a functional unit that updates the reception success rate of facsimile reception as the image transmission apparatus 10 . The success rate update unit 109 is implemented by executing a program by the CPU 301 shown in FIG. 2, for example.

The image compression unit 110 is a functional unit that compresses image data to be faxed according to the compression type (eg, JBIG, MMR, MR, MH, etc.) determined by the compression type determination unit 108 . The image compression unit 110 is implemented, for example, by execution of a program by the CPU 301 shown in FIG.

The image decompression unit 111 is a functional unit that decompresses compressed image data received by facsimile. Specifically, the image decompression unit 111 decompresses the image data according to the compression type included in the transmission mode information received when the compressed image data is received by facsimile. The image decompression unit 111 is implemented, for example, by execution of a program by the CPU 301 shown in FIG.

The storage unit 112 is a functional unit that stores data to be transmitted and received by facsimile, a program, information on a facsimile transmission success rate and a facsimile reception success rate, and the like. For example, the storage unit 112 stores a transmission success rate table 1121 as shown in FIG. 4 as transmission success rate information, and stores reception success rate tables as shown in FIGS. A table 1122 is stored. Storage unit 112 is implemented by system memory 302, local memory 307, or auxiliary storage device 308 shown in FIG.

The transmission success rate table 1121 shown in FIG. 4 associates compression types with success rates (transmission success rates) in a table format. For example, the transmission success rate corresponding to MMR as the compression type is recorded as 90%. It is When the compression type is MR, the K parameter is set to 4 (K=4) for standard resolution, and 2 (K=2) for high resolution. In this case, every K lines are one-dimensionally coded, and the remaining (K-1) lines are two-dimensionally coded. The reception success rate table 1122 is also configured in a similar format. Although the transmission success rate table 1121 and the reception success rate table 1122 shown in FIG. 4 have been described as information in a table format, they are not limited to this. does not matter.

The input unit 113 is a functional unit that receives an operation input for facsimile transmission by the user. The input unit 113 is realized by the input function of the operation display unit 310 shown in FIG.

The display control unit 114 is a functional unit that controls the display operation of the display unit 115 . The display control unit 114 is realized by executing a program by the ASIC 306 or the CPU 301 shown in FIG.

The display unit 115 is a functional unit that displays information under the control of the display control unit 114 . The display unit 115 is a functional unit that displays, for example, an operation UI for facsimile transmission and a reception result when facsimile reception is performed. The display unit 115 is realized by the display function of the operation display unit 310 shown in FIG.

Transmission success rate notification unit 104, reception success rate notification unit 105, transmission success rate acquisition unit 106, reception success rate acquisition unit 107, compression type determination unit 108, success rate update unit 109, image compression unit 110, and image expansion unit A part or all of 111 may be implemented by a hardware circuit such as FPGA (Field-Programmable Gate Array) or ASIC (eg, ASIC 306).

Also, each functional unit of the image transmission apparatuses 10 and 20 shown in FIG. 3 conceptually shows the function, and is not limited to such a configuration. For example, a plurality of functional units illustrated as independent functional units in the image transmission apparatuses 10 and 20 shown in FIG. 3 may be configured as one functional unit. On the other hand, the function of one functional unit in the image transmission apparatuses 10 and 20 shown in FIG. 3 may be divided into a plurality of functional units.

(Data Transmission Processing in Image Transmission System)
FIG. 5 is a sequence diagram showing an example of the flow of data transmission processing in the image transmission system according to the embodiment. FIG. 6 is a diagram for explaining the operation of judging the compression type with priority given to the receiver side. FIG. 7 is a diagram for explaining the operation of judging the compression type with priority given to the transmitter side. FIG. 8 is a diagram for explaining the operation of judging the compression type with priority given to the communication time. The flow of data transmission processing in the image transmission system 1 according to the present embodiment will be described with reference to FIGS. 5 to 8. FIG. In the description of FIG. 5, the image transmission device 10a (an example of the transmission device) is the fax transmission source, the image transmission device 20 (an example of the reception device) is the fax transmission destination, and the same network as the image transmission device 10a ( It is assumed that the image transmission device 10b (an example of another transmission device) exists in the LAN 2).

<Step S11>
In the image transmission device 10 a , when the user inputs a facsimile transmission operation via the input unit 113 , the facsimile transmission unit 101 calls the image transmission device 20 via the telephone network 3 . For example, image data read by the scanner 332 of the image transmission apparatus 10a is to be faxed.

<Step S12>
Upon receiving a call from the image transmission apparatus 10 a via the telephone network 3 , the facsimile reception section 102 of the image transmission apparatus 20 sends a notification (call notification) to the reception success rate notification section 105 .

<Steps S13 to S15>
Upon receiving the call notification, the reception success rate notification unit 105 of the image transmission device 20 refers to the storage unit 112 (second storage unit) (for example, the reception success rate table 1122) and The reception success rate (reception success rate information) of fax reception corresponding to each compression type is read. The reception success rate notification unit 105 notifies the read reception success rate to the image transmission apparatus 10a via the fax reception unit 102. FIG.

<Steps S16, S17>
The facsimile transmission unit 101 of the image transmission device 10 a receives the reception success rate from the image transmission device 20 , and the reception success rate acquisition unit 107 acquires the reception success rate from the facsimile transmission unit 101 . Then, reception success rate acquisition section 107 sends a compression type determination request for requesting determination of the compression type to compression type determination section 108 together with the acquired reception success rate.

<Steps S18 and S19>
When the compression type determination request is received together with the reception success rate of the image transmission device 20, the compression type determination unit 108 of the image transmission device 10a refers to the storage unit 112 (first storage unit) (for example, the transmission success rate table 1121). Then, the facsimile transmission success rate (first transmission success rate information) corresponding to each compression type of itself (image transmission apparatus 10a) is read. Then, the compression type determination unit 108 sends a transmission success rate acquisition command for acquiring the transmission success rate of fax transmission from the image transmission device 10b to the transmission success rate acquisition unit 106 .

<Steps S20 to S22>
Upon receiving the transmission success rate acquisition command, the transmission success rate acquisition unit 106 of the image transmission apparatus 10a requests the image transmission apparatus 10b to acquire and notify the transmission success rate of fax transmission (transmission success rate acquisition request). is transmitted via the communication unit 103 . Upon receiving the transmission success rate acquisition request from the image transmission device 10 a , the communication unit 103 of the image transmission device 10 b sends the transmission success rate acquisition request to the transmission success rate notification unit 104 .

<Steps S23 to S25>
Upon receiving the transmission success rate acquisition request, the transmission success rate notification unit 104 of the image transmission apparatus 10b refers to the storage unit 112 (for example, the transmission success rate table 1121) and sets each compression type of itself (the image transmission apparatus 10b). The transmission success rate (second transmission success rate information) of the corresponding fax transmission is read. The transmission success rate notification unit 104 notifies the read transmission success rate to the image transmission apparatus 10a via the communication unit 103. FIG.

<Steps S26, S27>
Upon receiving the transmission success rate from the image transmission apparatus 10b, the communication section 103 of the image transmission apparatus 10a sends the transmission success rate to the compression type determination section .

<Step S28>
The compression type determination unit 108 of the image transmission device 10a determines the facsimile transmission success rate of the image transmission device 10a itself and the facsimile transmission success rate of the image transmission device 10b acquired by the transmission success rate acquisition unit 106. , and the facsimile reception success rate of the destination image transmission apparatus 20 obtained by the reception success rate obtaining unit 107, the compression type of the compression process for the image data to be facsimile-transmitted is determined.

For example, when the compression type determination unit 108 determines the compression type with priority given to the receiver (image transmission device 20), as shown in FIG. Among compression types with a predetermined rate (for example, 80%) or more, the compression type with the highest reception success rate on the receiving side is adopted. In this case, the transmission success rate for each compression type may be, for example, the average value, weighted average, minimum value, or maximum value of the transmission success rate for each compression type of the image transmission devices 10a and 10b. In the example shown in FIG. 6, compression types with a transmission success rate of 80% or more on the transmission side (image transmission apparatuses 10a and 10b) are listed in the transmission success rate table 1121 (the success rate shown in the table is an average value as described above). , weighted average, minimum or maximum, etc.), JBIG, MR (K parameter: 4), MR (K parameter: 2) and MH. Of these, the compression type with the highest reception success rate on the receiving side (image transmission device 20 ) can be determined from the reception success rate table 1122 of the image transmission device 20 to be MH.

For example, when the compression type determination unit 108 determines the compression type with priority given to the transmitter (image transmission device 10a), as shown in FIG. The compression type with the highest transmission success rate on the transmission side (image transmission apparatuses 10a and 10b) may be adopted from among the compression types with a predetermined rate (for example, 80%) or higher. In this case, the transmission success rate for each compression type may be, for example, the average value, weighted average, minimum value, or maximum value of the transmission success rate for each compression type of the image transmission devices 10a and 10b. In the example shown in FIG. 7, the compression types with a reception success rate of 80% or higher on the receiving side (image transmission device 20) are MMR, MR (K parameter: 4), MR ( K parameters: 2) and MH. Among them, the compression type with the highest transmission success rate on the transmission side (image transmission apparatuses 10a and 10b) is the transmission success rate table 1121 of the image transmission apparatuses 10a and 10b (the success rate shown in this table is the average value as described above). , weighted average, minimum or maximum value, etc.), it can be determined to be MMR.

For example, when the compression type determination unit 108 determines the compression type by prioritizing the communication time of facsimile transmission, as shown in FIG. 10b) The compression type with the highest compression rate may be adopted from among the compression types with both success rates equal to or higher than a predetermined rate (eg, 80%). In this case, the transmission success rate for each compression type may be, for example, the average value, weighted average, minimum value, or maximum value of the transmission success rate for each compression type of the image transmission devices 10a and 10b. In the example shown in FIG. 8, compression types with a success rate of 80% or more on both the receiving side and the transmitting side are included in the reception success rate table 1122 and the transmission success rate table 1121 (the success rates shown in the tables are averaged as described above). JBIG, MMR, MR (K parameter: 4), MR (K parameter: 2) and MH, as shown in . Also, as shown in FIG. 8, the compression rate of each compression type is JBIG, MMR, MMR, MR (K parameter: 4), MR (K parameter: 2), and MH in descending order. Among the compression types with a success rate of 80% or higher on both the receiving side and the transmitting side, the compression type with the highest compression rate can be determined to be JBIG.

As described above, as the method of determining the compression type by the compression type determination unit 108, three cases of giving priority to the receiver, giving priority to the transmitter, and giving priority to the communication time have been described. , may be set in advance to one of the determination methods. Also, the determination method is not limited to the three methods described above, and other determination methods may be used to determine the compression type.

<Steps S29 to S31>
The compression type determination unit 108 of the image transmission device 10a notifies the image compression unit 110 and the fax transmission unit 101 of the determined compression type. The image compression unit 110 compresses the image data to be sent by facsimile according to the compression method according to the notified compression type. Then, image compression section 110 sends the compressed image data to facsimile transmission section 101 .

<Step S32>
Before facsimile transmission of the compressed image data, the facsimile transmission unit 101 of the image transmission device 10a first transmits, via the telephone network 3, the transmission mode including information such as the notified compression type, resolution, and communication rate. and transmits it to the image transmission device 20 .

<Step S33>
The facsimile transmission unit 101 of the image transmission device 10 a faxes the compressed image data to the image transmission device 20 via the telephone network 3 .

<Step S34>
The facsimile receiving unit 102 of the image transmission device 20 sends the received transmission mode (at least compression type) and compressed image data to the image decompression unit 111 .

<Steps S35, S36>
The image decompression unit 111 of the image transmission device 20 decompresses the compressed image data based on the compression type included in the received transmission mode. Then, the image decompression unit 111 sends the decompression result of the image data to the fax receiving unit 102 and the success rate updating unit 109 as a reception result.

<Step S37>
The success rate update unit 109 (second update unit) of the image transmission device 20 updates the corresponding compression type in the reception success rate table 1122 stored in the storage unit 112 based on the reception result received from the fax reception unit 102. update the reception success rate of

<Steps S38, S39>
The fax reception unit 102 of the image transmission device 20 transmits the received reception result to the image transmission device 10a via the telephone network 3. FIG. The facsimile transmission unit 101 of the image transmission device 10 a sends the reception result received from the image transmission device 20 to the success rate update unit 109 .

<Step S40>
The success rate update unit 109 (first update unit) of the image transmission device 10 a updates the image compression unit 110 in the transmission success rate table 1121 stored in the storage unit 112 based on the reception result received from the fax transmission unit 101 . Updates the transmission success rate for each compression type of image data compression by .

Data transmission processing in the image transmission system 1 is performed in accordance with the flow of steps S11 to S40 as described above.

As described above with reference to FIG. 5, the image transmission device 10a on the facsimile transmission side updates the transmission success rate by reflecting the success or failure of the facsimile transmission, and the image transmission device 20 on the facsimile reception side updates , the success or failure of the fax reception is reflected in the reception success rate and updated. In this case, the criteria for success or failure of fax transmission and fax reception can be defined by, for example, the following criteria. If the sending side performs normal compression processing, the sending side sends the compressed image data to the receiving side normally, and the receiving side performs decompression processing normally, the sending side determines that the transmission has succeeded, and , the receiving side may judge that the reception has been successful. In addition, if the transmission side performs the compression process normally, the compressed image data is normally transmitted from the transmission side to the reception side, and the decompression process fails on the reception side, the transmission side determines that the transmission has succeeded, and On the receiving side, it may be determined that reception has failed. Also, if the transmission side performs normal compression processing and fails to transmit the compressed image data from the transmission side to the reception side, the transmission side is determined to have failed, and the reception side fails to receive (for example, reception If the data obtained is corrupted). Also, if the transmission side fails in the compression process, the transmission side may determine that the transmission has failed. However, if image data for which compression processing has failed on the sending side is sent to the receiving side as is, and as a result, decompression processing on the receiving side fails, the sending side will determine that reception has failed, and transmission on the sending side will also fail. It may be determined that It should be noted that the above determination criteria are only an example, and other criteria may be used to determine whether fax transmission and fax reception are successful or unsuccessful.

As described above, in this embodiment, when performing fax transmission, not only the own transmission success rate but also the transmission success rate of the image transmission apparatus 10 in the same network and the reception success rate of the fax destination are obtained. Then, based on these, the compression type of the image data is determined. This makes it possible to further suppress the occurrence of facsimile transmission errors.

In the above-described embodiments, when at least one of the functional units of the image transmission apparatuses 10 and 20 is implemented by executing a program, the program is preinstalled in a ROM or the like and provided. In the above-described embodiments, the programs executed by the image transmission devices 10 and 20 are stored in installable or executable format files on a CD-ROM (Compact Disc Read Only Memory), flexible disk (FD), It may be configured to record and provide on a computer-readable recording medium such as CD-R (Compact Disk-Recordable) or DVD (Digital Versatile Disc). Further, in the above-described embodiments, the programs executed by the image transmission apparatuses 10 and 20 may be stored on a computer connected to a network such as the Internet, and provided by being downloaded via the network. good. Further, in the above-described embodiments, the programs executed by the image transmission apparatuses 10 and 20 may be provided or distributed via a network such as the Internet. In the above-described embodiments, the programs executed by the image transmission apparatuses 10 and 20 have a module configuration including at least one of the above-described functional units. By reading the program from the storage device and executing it, each of the functional units described above is loaded onto the main storage device and generated.

1 image transmission system 2 LAN
3 telephone network 10, 10a to 10c image transmission device 20 image transmission device 101 fax transmission unit 102 fax reception unit 103 communication unit 104 transmission success rate notification unit 105 reception success rate notification unit 106 transmission success rate acquisition unit 107 reception success rate acquisition unit 108 compression type determination unit 109 success rate update unit 110 image compression unit 111 image decompression unit 112 storage unit 113 input unit 114 display control unit 115 display unit 300 controller 301 CPU
302 system memory (MEM-P)
303 North Bridge (NB)
304a South Bridge (SB)
304b Network I/F
304c USB I/F
304d Centronics I/F
305 AGP
306 ASICs
307 Local memory (MEM-C)
308 auxiliary storage device 310 operation display unit 320 FCU
331 plotter 332 scanner 1121 transmission success rate table 1122 reception success rate table

Japanese Patent Application Laid-Open No. 2003-309710

Claims (10)

For each compression type, for the total number of times of facsimile transmission, the target data for facsimile transmission is normally compressed, the compressed target data is normally transmitted to a transmission destination, and the compressed target data is compressed at the transmission destination. a storage unit for storing first transmission success rate information indicating a success rate of fax transmission, which is a ratio of the number of times the target data is decompressed normally ;
When data is fax-transmitted, data to be received by fax from the receiving device of the fax transmission destination is normally compressed at the transmission source with respect to the total number of fax receptions, and is compressed from the transmission source to the receiving device. obtaining reception success rate information indicating a success rate of fax reception, which is a ratio of the number of times the target data is normally transmitted and the target data compressed by the receiving device is normally decompressed; 1 obtaining unit;
When the data is fax-transmitted, the data to be fax-transmitted is normally sent from the other transmission device connected via the network to the total number of times of fax transmission for each compression type. It is the ratio of the number of times that the target data that has been compressed and compressed from the other transmission device to the destination is normally transmitted , and that the compressed target data is normally decompressed at the destination. a second acquisition unit that acquires second transmission success rate information indicating a success rate of fax transmission;
the first transmission success rate information stored in the storage unit, the reception success rate information acquired by the first acquisition unit, and the second transmission success rate information acquired by the second acquisition unit; a determination unit that determines a compression type of the data based on;
a compression unit that compresses the data by a compression method according to the compression type determined by the determination unit;
a transmitting unit configured to transmit the data compressed by the compressing unit to the receiving device;
transmitter with 2. The transmitting apparatus according to claim 1, further comprising an updating section that updates said first transmission success rate information based on a result of transmission of said compressed data by said transmitting section. The determination unit determines the reception success rate information acquired by the first acquisition unit among compression types for which the success rate indicated by the second transmission success rate information acquired by the second acquisition unit is equal to or higher than a predetermined rate. 3. The transmitting apparatus according to claim 1, wherein the compression type with the highest success rate indicated by is determined as the compression type of the data. The determination unit determines the second transmission success rate information acquired by the second acquisition unit, among the compression types for which the success rate indicated by the reception success rate information acquired by the first acquisition unit is equal to or higher than a predetermined rate. 3. The transmitting apparatus according to claim 1, wherein the compression type with the highest success rate indicated by is determined as the compression type of the data. The determination unit determines a compression type in which both success rates of the reception success rate information acquired by the first acquisition unit and the second transmission success rate information acquired by the second acquisition unit are equal to or higher than a predetermined rate. 3. The transmission device according to claim 1, wherein the compression type with the highest compression rate is determined as the compression type of the data. A transmission system comprising a transmitter and a receiver,
The transmitting device
For each compression type, for the total number of times of facsimile transmission, the target data for facsimile transmission is normally compressed, the compressed target data is normally transmitted to a transmission destination, and the compressed target data is compressed at the transmission destination. a first storage unit for storing first transmission success rate information indicating a success rate of facsimile transmission, which is a ratio of the number of times the target data has been successfully decompressed ;
The receiving device
Data to be received by fax is normally compressed at a transmission source, and the compressed target data is normally transmitted from the transmission source to the receiving device, in relation to the total number of fax receptions for each compression type, and a second storage unit for storing reception success rate information indicating a success rate of fax reception, which is a ratio of the number of times that target data compressed by the receiving device has been successfully decompressed;
a notification unit that notifies the reception success rate information stored in the second storage unit in accordance with a fax transmission call from the transmission device;
with
The transmitting device
a first acquisition unit that acquires the reception success rate information notified from the notification unit when data is faxed;
When the data is fax-transmitted, the data to be fax-transmitted is normally sent from the other transmission device connected via the network to the total number of times of fax transmission for each compression type. It is the ratio of the number of times that the target data that has been compressed and compressed from the other transmission device to the destination is normally transmitted , and that the compressed target data is normally decompressed at the destination. a second acquisition unit that acquires second transmission success rate information indicating a success rate of fax transmission;
The first transmission success rate information stored in the first storage unit, the reception success rate information acquired by the first acquisition unit, and the second transmission success rate information acquired by the second acquisition unit. and a determination unit that determines a compression type of the data based on;
a compression unit that compresses the data by a compression method according to the compression type determined by the determination unit;
a transmitting unit configured to transmit the data compressed by the compressing unit to the receiving device;
A transmission system further comprising: The transmitting device
7. The transmission system according to claim 6, further comprising a first updating unit that updates said first transmission success rate information based on a result of transmission of said compressed data by said transmitting unit. The receiving device
a receiving unit that receives the compressed data transmitted from the transmitting unit;
a decompression unit that decompresses the data received by the reception unit;
a second updating unit that updates the reception success rate information based on the result of decompression by the decompressing unit;
8. A transmission system according to claim 6 or 7, further comprising: A transmission method for a transmission system comprising a transmission device and a reception device,
According to the call for fax transmission from the transmission device, data to be received by fax is normally compressed at the transmission source with respect to the total number of receptions of the fax for each compression type, and is compressed from the transmission source to the reception device. Notification for notifying reception success rate information indicating the success rate of fax reception, which is the ratio of the number of times the target data is successfully transmitted and the target data compressed by the receiving device is normally decompressed. a step;
a first acquisition step of acquiring the reception success rate information notified in the notification step when data is faxed from the transmission device;
When the data is fax-transmitted from the transmission device, from the other transmission device connected via the network, for each compression type, the facsimile transmission target of the other transmission device with respect to the total number of facsimile transmissions The number of times data is normally compressed, the compressed target data is normally transmitted from the other transmission device to the destination, and the compressed target data is normally decompressed at the destination. a second obtaining step of obtaining second transmission success rate information indicating a fax transmission success rate that is a percentage of
For each compression type stored in the transmission device, normal compression processing is performed on target data for fax transmission with respect to the total number of times of fax transmission, and the compressed target data is normally transmitted to a transmission destination; First transmission success rate information indicating a success rate of fax transmission, which is a ratio of the number of times the target data compressed at the transmission destination is normally decompressed ; the reception success rate information; and the second transmission. a determination step of determining a compression type of the data based on the success rate information;
a compression step of compressing the data by a compression method according to the determined compression type;
a transmitting step of transmitting the compressed data to the receiving device;
transmission method. to the computer,
When data is fax-transmitted, data to be received by fax from the receiving device of the fax transmission destination is normally compressed at the transmission source with respect to the total number of fax receptions, and is compressed from the transmission source to the receiving device. obtaining reception success rate information indicating a success rate of fax reception, which is a ratio of the number of times the target data is normally transmitted and the target data compressed by the receiving device is normally decompressed; 1 obtaining step;
When the data is fax-transmitted, the data to be fax-transmitted is normally sent from the other transmission device connected via the network to the total number of times of fax transmission for each compression type. It is the ratio of the number of times that the target data that has been compressed and compressed from the other transmission device to the destination is normally transmitted , and that the compressed target data is normally decompressed at the destination. a second acquiring step of acquiring second transmission success rate information indicating a success rate of fax transmission;
For each compression type, for the total number of times of facsimile transmission, the target data for facsimile transmission is normally compressed, the compressed target data is normally transmitted to a transmission destination, and the compressed target data is compressed at the transmission destination. the first transmission success rate information stored in a storage unit that stores first transmission success rate information indicating a success rate of fax transmission, which is a ratio of the number of times the target data is decompressed normally ; a determination step of determining a compression type of the data based on the reception success rate information and the acquired second transmission success rate information;
a compression step of compressing the data by a compression method according to the determined compression type;
a transmitting step of transmitting the compressed data to the receiving device;
program to run the

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