JP3676349B2 - Facsimile signal transmission apparatus and facsimile signal transmission method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to a facsimile signal transmission apparatus and a facsimile signal transmission method for improving the transmission efficiency of a facsimile signal between a plurality of facsimile terminals applied to an ATM network, a packet communication network, and the like.
[0002]
[Prior art]
  FIG. 15 is a block diagram showing a conventional facsimile signal transmission apparatus. In the figure, 1 is a facsimile terminal, 2 is a base station transmitted from another facsimile terminal 8 while demodulating a facsimile signal output from the facsimile terminal 1. A modem that modulates a band facsimile signal, 2a is a demodulator of modem 2, 2b is a modulator of modem 2, and 3 is a modem that controls the communication protocol of the facsimile signal. 30 communication protocol control unit; 30 is a modem control unit that controls the modem 2 in accordance with the mode setting information output from the communication protocol control unit 3. 30 Based on the signal indicating the type of the facsimile signal output from the communication protocol control unit 3, the baseband facsimile signal demodulated by the modem 2 is sequentially combined to generate frame data of a predetermined size. A frame assembling unit for outputting data to the transmission path 6, 6 is a transmission path, 7 is a frame data of a predetermined size, and when the frame data is output to the transmission path 13, the frame data is received and decomposed into a plurality of baseband facsimile signals. And a frame decomposing unit for outputting a plurality of baseband facsimile signals to the modem 2.
[0003]
  8 is a facsimile terminal, 9 is a modem having the same function as the modem 2, 9a is a demodulator of the modem 9, 9b is a modulator of the modem 9, and 10 is a T.D. 30 having the same function as the communication protocol control unit 3. 30 is a communication protocol control unit, 11 is a modem control unit having the same function as the modem control unit 4, 12 is a frame assembly unit having the same function as the frame assembly unit 5, 13 is a transmission path, 14 is a frame disassembly unit 7 and This is a frame disassembly unit having a similar function.
[0004]
  Next, the operation will be described.
  For convenience of explanation, an operation when a facsimile signal is transmitted from the facsimile terminal 1 to the facsimile terminal 8 will be described.
  First, when transmitting a facsimile signal from the facsimile terminal 1 to the facsimile terminal 8, in order to increase the transmission efficiency of the facsimile signal, the demodulator 2a of the modem 2 demodulates the facsimile signal modulated and output from the facsimile terminal 1, Convert to baseband facsimile signal.
[0005]
  When the baseband facsimile signal is output from the demodulator 2a of the modem 2, the frame assembling unit 5 receives the T.P. 30 Based on a signal indicating the type of facsimile signal output from the communication protocol control unit 3, the baseband facsimile signals are sequentially combined to generate frame data of a predetermined size.
  When the generation of frame data of a predetermined size is completed, the frame data is output to the transmission path 6 and the facsimile signal transmission process is completed.
[0006]
  When the frame data is output to the transmission path 6 in this way, the frame decomposing unit 14 converts the frame data based on the frame detection signal (a signal indicating the data configuration of the frame data and the presence / absence of discard during transmission). A plurality of baseband facsimile signals are decomposed, and a plurality of baseband facsimile signals are output to the modem 9.
  Here, the frame detection signal is sent from a frame discard detection unit (not shown) that determines whether or not the frame data is transmitted without being discarded when the frame data is transmitted from the frame assembly unit 5 via the transmission path 6. This is an output signal.
[0007]
  When a plurality of baseband facsimile signals are output from the frame decomposing unit 14, the modulator 9 b of the modem 9 sequentially modulates the plurality of baseband facsimile signals and outputs them to the facsimile terminal 8. The signal reception process is completed.
  When the facsimile signal modulated from the modulator 9b of the modem 9 is output, the facsimile terminal 8 demodulates the facsimile signal and executes processing such as printing according to the demodulation result.
  The operation when the facsimile signal is transmitted from the facsimile terminal 8 to the facsimile terminal 1 is the same as the operation when the facsimile signal is transmitted from the facsimile terminal 1 to the facsimile terminal 8, and thus the description thereof is omitted.
[0008]
[Problems to be solved by the invention]
  Since the conventional facsimile signal transmission apparatus is configured as described above, the transmission efficiency of the facsimile signal can be improved. However, if the frame data is discarded due to congestion of the transmission path 6 or the like, the frame detection signal Even if the fact of discard can be recognized based on the above, the discarded frame data cannot be output to the receiving facsimile terminal 1 or the like, and therefore the frame data includes control data necessary for facsimile communication However, there is a possibility that the facsimile terminal 1 or the like is terminated due to a communication error, and when image data is included in the frame data, there is a problem that the image is significantly deteriorated.
[0009]
  SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems. Facsimile signal transmission capable of preventing the occurrence of communication abnormality and significant image deterioration in a facsimile terminal even when frame data is discarded on the transmission path. It is an object to obtain an apparatus and a facsimile signal transmission method.
[0010]
[Means for Solving the Problems]
  The facsimile signal transmission apparatus according to the present invention is a facsimile signal output from a facsimile terminal and output before the facsimile signal.RedundantA transmission means for generating frame data by combining with a facsimile signal and outputting the frame data to a transmission path is provided.
[0011]
  The facsimile signal transmission apparatus according to the present invention comprises first storage means for storing a facsimile signal output from a facsimile terminal, and the transmission means transmits frame data using the facsimile signal stored in the first storage means. Is to be generated.
[0012]
  Facsimile signal transmission apparatus according to the present inventionInThe transmission means combines the facsimile signal output from the facsimile terminal and a plurality of past facsimile signals to generate frame data.
[0013]
  Facsimile signal transmission apparatus according to the present inventionInThe transmission means includes the nth facsimile signal output from the facsimile terminal, the (n−1) th facsimile signal before the facsimile signal, and the (n−1) th facsimile signal. Is combined with the (n-2) th output facsimile signal before the frame data to generate frame data.
[0014]
  The transmission means in the facsimile signal transmission apparatus according to the present invention outputs frame data a plurality of times.
[0015]
  The transmission line in the facsimile signal transmission apparatus according to the present invention is an ATM network or a packet. It forms a net.
[0016]
  Facsimile signal according to the present inventionReceiveThe device uses the facsimile signal output from the facsimile terminal and the facsimile signal.Verbose output beforeGenerated by combining with facsimile signalA plurality of frames including first frame data and second frame data;If the receiving means for receiving the frame data and the first frame data are transmitted without being discarded during transmission, the receiving meansReceiveWasIncluded in the first frame dataFacsimile signal is output,FirstIf the frame data is discarded during transmission,Of the discarded first frame dataEquivalent to facsimile signalRedundancy included in second frame dataSignal selecting means for outputting redundant facsimile signals included in the frame data.
[0017]
  The facsimile signal receiving apparatus according to the present invention includes second storage means for storing a facsimile signal obtained by decomposing frame data, and the receiving means receives the received frame data from the facsimile terminal and the facsimile signal. The second facsimile means accumulates the facsimile signal decomposed by the receiving means, and the signal selection means discards the first frame data during transmission. If it is, a redundant facsimile signal included in the second frame data corresponding to the discarded facsimile signal of the first frame data is output from the facsimile signals stored in the second storage means. To do.
[0018]
  The facsimile signal transmission method according to the present invention includes a facsimile signal output from a facsimile terminal and an output before the facsimile signal.RedundantThe frame data is generated by combining with the facsimile signal, and the frame data is output to the transmission path.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
  An embodiment of the present invention will be described below.
Embodiment 1 FIG.
  FIG. 1 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 1 of the present invention. In the figure, 21 is a facsimile terminal, 22 is a demodulator of a facsimile signal output from the facsimile terminal 21, and another facsimile terminal. A modem that modulates the baseband facsimile signal transmitted from 32, 22a is a demodulator of modem 22, 22b is a modulator of modem 22, and 23 is a modem that controls the communication protocol of the facsimile signal. 30 communication protocol control unit, 24 is T.30. 30 is a modem control unit that controls the modem 22 in accordance with mode setting information output from the communication protocol control unit 23.
[0020]
  Reference numeral 25 denotes a facsimile signal storage unit (first storage means) for storing a baseband facsimile signal demodulated by the modem 22, and reference numeral 26 denotes an output from the modem 22 in accordance with a control signal output from the frame assembly unit 27. A selector (transmission means) for outputting either the current facsimile signal or the past facsimile signal accumulated by the facsimile signal accumulation unit 25 to the frame assembling unit 27; 30 Based on the signal indicating the type of facsimile signal output from the communication protocol control unit 23, the baseband facsimile signal output from the selector 26 is sequentially combined to generate frame data of a predetermined size, and the frame A frame assembly unit (transmission means) for outputting data to the transmission path 28, 28 is a transmission path.
[0021]
  Reference numeral 29 denotes a frame decomposing unit (receiving means) that receives frame data of a predetermined size and outputs it to a plurality of baseband facsimile signals when the frame data is output to the transmission path 39. Reference numeral 30 denotes a frame decomposing unit 29. A restored data storage unit (second storage means) 31 for storing a plurality of baseband facsimile signals decomposed by the above, 31 receives a frame detection signal indicating that the frame data has been transmitted without being discarded during transmission Then, among the plurality of facsimile signals decomposed by the frame decomposing unit 29, the oldest facsimile signal is output to the modem 22, and when the frame detection signal indicating that the frame data is discarded during transmission is received, the restored data Corresponds to the oldest facsimile signal among the facsimile signals stored by the storage unit 30. A selector (signal selecting means) for outputting a Akushimiri signal to the modem 22.
[0022]
  Further, 32 is a facsimile terminal, 33 is a modem having the same function as the modem 22, 33 a is a demodulator of the modem 33, 33 b is a modulator of the modem 33, and 34 is T.30. 30 having the same function as the communication protocol control unit 23. 30 is a communication protocol control unit, 35 is a modem control unit having the same function as the modem control unit 24, 36 is a facsimile signal storage unit (first storage means) having the same function as the facsimile signal storage unit 25, and 37 is a selector. 26 is a selector (transmission means) having the same function as 26, 38 is a frame assembly section (transmission means) having the same function as the frame assembly section 27, 39 is a transmission path, and 40 is the same function as the frame disassembly section 29. A frame decomposition unit (reception unit), 41 is a restoration data storage unit (second storage unit) having the same function as the restoration data storage unit 30, and 42 is a selector (signal selection unit) having the same function as the selector 31. is there.
  FIG. 2 is a flowchart showing a facsimile signal transmission method applied to the facsimile signal transmission apparatus according to the first embodiment of the present invention.
[0023]
  Next, the operation will be described.
  For convenience of explanation, an operation in the case where a facsimile signal including control data necessary for facsimile communication is transmitted from the facsimile terminal 21 to the facsimile terminal 32 will be described.
  First, when transmitting a facsimile signal from the facsimile terminal 21 to the facsimile terminal 32, the demodulator 22a of the modem 22 demodulates the facsimile signal modulated and output from the facsimile terminal 21 in order to increase the transmission efficiency of the facsimile signal. Conversion into a baseband facsimile signal (step ST1).
[0024]
  When the facsimile signal is demodulated and converted into a baseband facsimile signal, it is demodulated by the demodulator 22a of the modem 22 in order to generate frame data of a predetermined size by appropriately combining a plurality of baseband facsimile signals. The baseband facsimile signal is stored in the facsimile signal storage unit 25 (step ST2). Then, when the current facsimile signal output from the modem 22 is the nth facsimile signal (see the third frame data from the top in FIG. 3), the frame assembling unit 27 stores the facsimile signal. The (n-2) th facsimile signal output from the modem 22 and the (n-1) th facsimile signal output from the previous modem 22 and the nth facsimile signal currently output from the modem 22 are stored in the unit 25. Are appropriately combined to generate frame data, a control signal is output to the selector 26 as appropriate, and frame data assembly processing is executed (step ST3).
  When the assembly of the frame data is completed, the frame assembly unit 27 outputs the frame data to the transmission path 28 (step ST4), and the facsimile signal transmission process is completed.
[0025]
  Thus, when the frame data is output to the transmission path 28, the frame decomposing unit 40 converts the frame data into a plurality of basebands based on the header of the frame data (the header indicates the data configuration of the frame data). (Step ST5), and a plurality of baseband facsimile signals are stored in the restored data storage unit 41 (step ST6).
  Here, it is determined whether the frame detection signal (the signal indicating the presence / absence of discard during transmission) is transmitted without being discarded when the frame data is transmitted from the frame assembling unit 27 via the transmission path 28. This is a signal output from a frame discard detection unit (not shown).
[0026]
  When the selector 42 receives a frame detection signal whose predetermined flag is H level (a frame detection signal indicating that the frame data was transmitted without being discarded during transmission), the selector 42 decomposed the frame 42. Of the plurality of facsimile signals, the oldest facsimile signal is output to the modem 33 (steps ST7 and ST8).
  That is, when the plurality of facsimile signals decomposed by the frame decomposing unit 40 are n-th frame data (third frame data from the top in FIG. 3), the n-2th facsimile signal is the oldest data in time. Therefore, the (n−2) th facsimile signal is output to the modem 33.
[0027]
  On the other hand, when the selector 42 receives a frame detection signal whose predetermined flag is L level (a frame detection signal indicating that the frame data has been discarded during transmission), the selector 42 includes the facsimile signal stored by the restored data storage unit 41. A facsimile signal corresponding to the oldest facsimile signal (n-2th facsimile signal) is output to the modem 33 (steps ST7 and ST9).
  That is, when the n-th frame data is transmitted (third frame data from the top in FIG. 3), if the frame data is not discarded, the n-2th facsimile signal is output to the modem 33 as described above. Therefore, among the facsimile signals stored in the restored data storage unit 41 (in the example of FIG. 3, four facsimile signals from the n−4th facsimile signal to the n−1th facsimile signal are stored. The (n-2) th facsimile signal is retrieved and output to the modem 33.
[0028]
  When the baseband facsimile signal is sequentially output from the selector 42 in this way, the modulator 33b of the modem 33 sequentially modulates the baseband facsimile signal and outputs it to the facsimile terminal 32 (step ST10). The facsimile signal reception process is completed.
  When the facsimile signal modulated from the modulator 33b of the modem 33 is output, the facsimile terminal 32 demodulates the facsimile signal and executes processing such as printing according to the demodulation result.
  The operation when the facsimile signal is transmitted from the facsimile terminal 32 to the facsimile terminal 21 is the same as the operation when the facsimile signal is transmitted from the facsimile terminal 21 to the facsimile terminal 32, and thus the description thereof is omitted.
[0029]
  As apparent from the above, according to the first embodiment, when the frame detection signal indicating that the frame data is discarded during transmission is received, the facsimile signals accumulated by the restored data accumulation units 30 and 41 are included. Since the facsimile signal corresponding to the oldest facsimile signal is output to the modems 22 and 33, even if frame data including control data necessary for facsimile communication is discarded on the transmission paths 39 and 28, the facsimile terminal 21 , 32 can be output to the modems 22 and 33, and as a result, it is possible to prevent occurrence of communication abnormality in the facsimile terminals 21 and 32.
[0030]
Embodiment 2. FIG.
  4 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 2 of the present invention. In the figure, the same reference numerals as those in FIG.
  43 is a data compression unit (compression unit) for compressing the baseband facsimile signal output from the modem 22, and 44 is a data expansion unit (decompression unit) for decompressing a plurality of facsimile signals decomposed by the frame decomposition unit 29. , 45 is a data compression unit (compression unit) having the same function as the data compression unit 43, and 46 is a data expansion unit (decompression unit) having the same function as the data expansion unit 44.
[0031]
  Next, the operation will be described.
  In the first embodiment, the case where a facsimile signal including control data necessary for facsimile communication is transmitted has been described. However, a facsimile signal including image data may be transmitted.
  That is, since image data generally has a larger number of bytes than control data, as shown in FIG. 3, it is not possible to combine a plurality of facsimile signals to form frame data. However, when frame data is formed, data compression is performed. If the units 43 and 45 compress the baseband facsimile signal, as shown in FIG. 5, a plurality of facsimile signals can be combined to form frame data.
  As a result, if the data decompression units 44 and 46 subsequent to the frame decomposing units 29 and 40 decompress the data of the baseband facsimile signal, the same operation as in the first embodiment is performed.
[0032]
  Incidentally, in the second embodiment, a plurality of facsimile signals decomposed by the frame decomposing unit 40 without being discarded during transmission are n-th frame data (third frame data from the top in FIG. 5). Since the (n-1) th facsimile signal is the oldest data, the (n-1) th facsimile signal is output to the modem 33.
  On the other hand, when the nth frame data is discarded during transmission, if the frame data is not discarded, the n−1th facsimile signal is output to the modem 33 as described above. Among the facsimile signals stored in 41 (in the example of FIG. 5, three facsimile signals from the n-3th facsimile signal to the (n-1) th facsimile signal are stored), the (n-1) th The facsimile signal is retrieved and output to the modem 33.
[0033]
  As apparent from the above, according to the second embodiment, since frame data is composed by combining data-compressed facsimile signals, frame data including image data is discarded on the transmission lines 39 and 28. In this case, the facsimile signals that should be transmitted to the facsimile terminals 21 and 32 can be output to the modems 22 and 33, and as a result, the image deterioration in the facsimile terminals 21 and 32 can be prevented. There is an effect that can.
  According to the second embodiment, even when the frame data including the control data is discarded on the transmission lines 39 and 28, the occurrence of a communication abnormality in the facsimile terminals 21 and 32 as in the first embodiment. Needless to say, this can be prevented.
[0034]
Embodiment 3 FIG.
  6 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 3 of the present invention. In the figure, the same reference numerals as those in FIG.
  47 is T.W. 30 The baseband facsimile signal demodulated by the modem 22 is sequentially combined based on a signal indicating the type of the facsimile signal output from the communication protocol control unit 23 to generate frame data of a predetermined size, and the frame A frame assembly unit (transmitting means) 48 for outputting data to the transmission path 28 receives frame data when frame data of a predetermined size is output to the transmission path 39, and receives the frame data based on the frame detection signal. Is a frame decomposing unit (receiving means) for decomposing the signal into a plurality of baseband facsimile signals.
[0035]
  Further, when 49 receives a frame detection signal indicating that the facsimile signal has been transmitted without being discarded during transmission, 49 is generated by the frame decomposing unit 48. When the decomposed facsimile signal is output to the modem 22 and a frame detection signal indicating that the facsimile signal has been discarded during transmission is received, a selector that outputs the dummy data generated by the dummy data generation unit 49 to the modem 22 ( Signal selection means).
[0036]
  Further, 51 is a frame assembling unit (transmitting means) having the same function as the frame assembling unit 47, 52 is a frame disassembling unit (receiving means) having the same function as the frame disassembling unit 48, and 53 is a dummy data generating unit 49. A dummy data generation unit (signal selection unit) 54 having the same function and a selector (signal selection unit) 54 having the same function as the selector 50 are provided.
[0037]
  Next, the operation will be described.
  In the first and second embodiments, when frame data is discarded during transmission, the past facsimile signals accumulated by the restored data accumulation units 30 and 41 are output to the modems 22 and 33. If the data is discarded during transmission, dummy data may be output to the modems 22 and 33.
[0038]
  That is, the dummy data generation units 49 and 53 generate and store fill data (data “0”) as dummy data in advance, and the selectors 50 and 54 indicate that the predetermined flag of the frame detection signal is at L level ( The dummy data may be output to the modems 22 and 33 in place of the facsimile signals output from the frame decomposing units 48 and 52 only during the period of time (indicating that the frame data has been discarded during transmission) (see FIG. 7).
[0039]
  Thus, even if the frame data is discarded during transmission, dummy data is given to the facsimile terminals 21 and 32 instead of the frame data (facsimile signal), so that the facsimile terminals 21 and 32 continue to execute the decoding process. As a result, it is possible to prevent the occurrence of communication abnormality in the facsimile terminals 21 and 32 (the decoding process is executed if no data is given while the frame data is discarded). Since this is not possible, communication errors may occur in the facsimile terminals 21 and 32).
  Note that fill data is used as dummy data. However, even if the fill data is decoded in the facsimile terminals 21 and 32, the data is ignored, so that the communication control in the facsimile terminals 21 and 32 is adversely affected. There is no fear.
[0040]
Embodiment 4 FIG.
  In the third embodiment, the fill data is used as the dummy data. However, white line data may be used as the dummy data, and the same effect as in the third embodiment can be obtained.
  When white line data is used as dummy data, the portion is printed as if there is no printing.
[0041]
Embodiment 5. FIG.
  FIG. 8 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 5 of the present invention. In the figure, the same reference numerals as those in FIG.
  55 is a buffer (storage means) for temporarily holding the facsimile signal decomposed by the frame decomposition unit 48, and 56 receives a frame detection signal indicating that the facsimile signal has been transmitted without being discarded during transmission. When the facsimile signal decomposed by the frame decomposing unit 48 is output to the modem 22 and a frame detection signal indicating that the facsimile signal is discarded during transmission is received, the previous facsimile signal held by the buffer 55 is received by the modem 22. Is a selector (signal selection means) that outputs to.
  Reference numeral 57 denotes a buffer (storage means) having the same function as the buffer 55, and 58 denotes a selector (signal selection means) having the same function as the selector 56.
[0042]
  Next, the operation will be described.
  In the third and fourth embodiments, when frame data is discarded during transmission, dummy data is output to the modems 22 and 33. However, when frame data is discarded during transmission, the buffer 55, The previous facsimile signal held by the terminal 57 may be output to the modems 22 and 33.
[0043]
  That is, the buffers 55 and 57 update the stored facsimile signal every time the facsimile signal is output from the frame decomposing units 48 and 52. The selectors 56 and 58 replace the facsimile signals output from the frame decomposing units 48 and 52 only when the predetermined flag of the frame detection signal is at the L level (indicating that the frame data is discarded during transmission). Thus, the previous facsimile signal held in the buffers 55 and 57 may be output to the modems 22 and 33.
[0044]
  Thus, the previous facsimile signal is replaced with the facsimile terminal 21, instead of the discarded frame data (facsimile signal) without providing the restored data storage units 30, 41 having a large storage capacity as in the first embodiment. Therefore, an effect of preventing the occurrence of communication abnormality in the facsimile terminals 21 and 32 is obtained.
[0045]
Embodiment 6 FIG.
  FIG. 9 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 6 of the present invention. In the figure, the same reference numerals as those in FIG.
  59 is a buffer (signal selection means) for temporarily holding the facsimile signal decomposed by the frame decomposition unit 48, and 60 is an EOL detection unit (detection) for detecting the end code EOL of each facsimile signal decomposed by the frame decomposition unit 48. When the frame detection signal indicating that the facsimile signal has been transmitted without being discarded during transmission is received, the facsimile signal held in the buffer 59 is output to the modem 22 as it is, and the facsimile signal is transmitted. When a frame detection signal indicating that it has been discarded is received, predetermined line data is inserted between the termination codes EOL of each facsimile signal detected by the EOL detection unit 60, and the inserted facsimile signal is output to the modem 22. A line data generation unit (signal selection means).
[0046]
  Also, 62 is a buffer (signal selection means) having the same function as the buffer 59, 63 is an EOL detection section (detection means) having the same function as the EOL detection section 60, and 64 is a function similar to the line data generation section 61. A line data generation unit (signal selection means).
[0047]
  Next, the operation will be described.
  Except for the buffers 59 and 62, the EOL detection units 60 and 63, and the line data generation units 61 and 64, the configuration is the same as that of the fifth embodiment. Therefore, the buffers 59 and 62, the EOL detection units 60 and 63, and the line The operation of the data generation units 61 and 64 will be described.
[0048]
  That is, when the baseband facsimile signal is output from the frame decomposing units 48 and 52, the buffers 59 and 62 hold the baseband facsimile signal in units of words as shown in FIG.
  When the baseband facsimile signal is stored in the buffers 59 and 62 in units of words, the EOL detection units 60 and 63 detect the end code EOL of each facsimile signal.
[0049]
  When the predetermined flag of the frame detection signal holds the H level (indicating that the facsimile signal was transmitted without being discarded during transmission), the line data generation units 61 and 64 The baseband facsimile signals held in 59 and 62 are output to the modems 22 and 33 as they are, but as shown in FIG. When the predetermined flag of the frame detection signal changes to L level (indicating that the facsimile signal has been discarded during transmission), the fill data ("0") generated in advance between the end codes EOL of each facsimile signal. Data) as line data (the vertical stripes in the figure) and the contents of the facsimile signals held in the buffers 59 and 62 Rewriting, to output the contents to the modem 22 and 33.
[0050]
  As is apparent from the above, according to the sixth embodiment, even when frame data including image data is discarded during transmission, predetermined line data is transmitted in the facsimile instead of the frame data (facsimile signal in word units). Since it is given to the terminals 21 and 32, that is, since the end code EOL is detected and all data between the end codes EOL can be rewritten to predetermined line data, the processing is slightly complicated. As compared with 5, it is possible to reduce image degradation.
[0051]
Embodiment 7 FIG.
  In the sixth embodiment, the fill data is used as the line data. However, white line data may be used as the line data, and the same effect as in the sixth embodiment can be obtained.
  When white line data is used as the line data, the portion is printed with no printing.
[0052]
Embodiment 8 FIG.
  FIG. 11 is a block diagram showing a facsimile signal transmission apparatus according to an eighth embodiment of the present invention. In the figure, the same reference numerals as those in FIG.
  When 65 receives a frame detection signal indicating that the facsimile signal has been transmitted without being discarded during transmission, the facsimile signal held in the buffer 59 is output to the modem 22 as it is, and the facsimile signal is discarded during transmission. When the received frame detection signal is received, the previous or next received facsimile signal is inserted between the end codes EOL of the facsimile signals detected by the EOL detection unit 60, and the inserted facsimile signal is sent to the modem 22. This is a line data insertion unit (signal selection means) to be output.
  Reference numeral 66 denotes a line data insertion unit (signal selection means) having the same function as the line data insertion unit 65.
[0053]
  Next, the operation will be described.
  In the above sixth and seventh embodiments, the case where the specific line data is inserted when the facsimile signal is discarded during transmission has been described. However, as shown in FIG. The facsimile signals received last time or next time by the units 48 and 52 may be inserted as line data.
  However, when the number of data of the facsimile signal to be inserted is smaller than the number of data in the inserted section, the smaller amount is supplemented with fill data.
  On the other hand, when the number is large, instead of inserting the previous or next received facsimile signal, for example, white line data and fill data are inserted.
  As a result, a facsimile signal having a high relevance to the discarded facsimile signal can be inserted as compared with the case of the sixth and seventh embodiments, so that it is possible to further reduce image deterioration.
[0054]
Embodiment 9 FIG.
  FIG. 13 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 9 of the present invention. In the figure, the same reference numerals as those in FIG.
  Reference numeral 67 denotes an encoding capability changing unit (transmission means) for changing a control signal indicating the encoding scheme of the facsimile terminal 21 included in the facsimile signal from the two-dimensional encoding scheme to the one-dimensional encoding scheme, and 68 is the encoding capability. This is a coding capability changing unit (transmitting means) having the same function as the changing unit 67.
[0055]
  Next, the operation will be described. In the first to eighth embodiments, the encoding method of the facsimile terminals 21 and 32 is not particularly mentioned. However, normally, both the facsimile terminals 21 and 32 use the two-dimensional encoding method from the viewpoint of improving the transmission efficiency. If it can be adopted, a two-dimensional encoding method is adopted as the encoding method of the facsimile terminals 21 and 32.
  Here, the two-dimensional encoding method is a method for encoding facsimile signals of a plurality of lines (such as two lines or four lines) collectively (the two-dimensional encoding method is defined in ITU-T recommendation T.4). Stipulated).
[0056]
  However, when the two-dimensional encoding method is adopted, if a part of the frame data including the image data is discarded during transmission, at least the facsimile signals of a plurality of lines encoded together are affected by the discarding. Therefore, there is a problem that the deterioration of the image becomes remarkable.
  Therefore, in the ninth embodiment, the encoding capability changing units 67 and 68 change the control signal indicating the encoding method of the facsimile terminals 21 and 32 from the two-dimensional encoding method to the one-dimensional encoding method. (If either one of the facsimile terminals 21 and 32 indicates that the one-dimensional encoding method is adopted, the one-dimensional encoding method is adopted).
  Here, the one-dimensional encoding method is a method for encoding a facsimile signal for each line.
[0057]
  As apparent from the above, according to the ninth embodiment, since the encoding method of the facsimile terminals 21 and 32 is changed from the two-dimensional encoding method to the one-dimensional encoding method, the discarded facsimile signal As a result, the influence of discarding is not exerted on the preceding and succeeding facsimile signals, so that it is possible to reduce image degradation as compared with the case of adopting the two-dimensional encoding method. Play.
[0058]
Embodiment 10 FIG.
  FIG. 14 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 10 of the present invention. In the figure, the same reference numerals as those in FIG.
  69 is a minimum scanning time capability changing unit (transmission means) for changing a control signal indicating the minimum scanning time of the facsimile terminal 21 included in the facsimile signal, and 70 is a minimum having the same function as the minimum scanning time capability changing unit 69. A scanning time capability changing unit (transmission means).
[0059]
  Next, the operation will be described.
  In the ninth embodiment, the coding method of the facsimile terminals 21 and 32 is changed. However, the minimum scanning time capability of the facsimile terminals 21 and 32 may be changed.
[0060]
  That is, the minimum scanning time capability is a capability indicating the processing time (decoding processing time, printing processing time, etc.) per line of the image data in the facsimile terminals 21 and 32, and the transmission time of the image data is based on the processing time. If the number is small, there is a problem that the processing of each line cannot catch up.
  For example, when the processing time per line is 20 msec, a problem occurs when the transmission time of the image data is less than 20 msec.
[0061]
  Therefore, normally, when the transmission time of one line of image data is shorter than the minimum scanning time, the facsimile terminals 21 and 32 add and transmit the fill data so as to be equal to or longer than the minimum scanning time.
  Specifically, the minimum scanning time capability changing units 69 and 70 appropriately change the control signal indicating the minimum scanning time to increase the minimum scanning time.
  As a result, since the number of data transmissions per line increases, the influence of the discarded facsimile signal comes to be localized, and image deterioration can be further reduced as compared with the first embodiment. There is an effect that can be done.
[0062]
Embodiment 11 FIG.
  In Embodiments 1 to 10 described above, the transmission unit and the reception unit are provided. However, the transmission unit or the reception unit may be provided.
[0063]
【The invention's effect】
  As described above, according to the present invention, the facsimile signal output from the facsimile terminal and the signal output before the facsimile signal are output.RedundantSince the frame data is generated by combining with the facsimile signal, and the transmission means is configured to output the frame data to the transmission line, it is possible to prevent the image from being significantly deteriorated in the facsimile terminal on the receiving side. .
[0064]
  According to the present invention, the first storage means for storing the facsimile signal output from the facsimile terminal is provided, and the transmission means generates the frame data using the facsimile signal stored in the first storage means. Since it is configured, there is an effect that it is possible to prevent a remarkable deterioration of the image in the receiving facsimile terminal.
[0065]
  According to the present invention, the transmission means is configured to generate the frame data by combining the facsimile signal output from the facsimile terminal and a plurality of past facsimile signals. There is an effect of preventing deterioration.
[0066]
  According to the present invention, the transmission means includes the nth facsimile signal output from the facsimile terminal, the (n−1) th facsimile signal output before the facsimile signal, and the (n−1) th facsimile signal. Since the frame data is generated by combining the (n-2) th output facsimile signal before the output facsimile signal, the image on the receiving facsimile terminal is prevented from being significantly deteriorated. There is an effect that can.
[0067]
  According to the present invention, since the transmission means is configured to output the frame data a plurality of times, there is an effect that it is possible to prevent a remarkable deterioration of the image in the receiving facsimile terminal.
[0068]
  According to the present invention, since the transmission line forms an ATM network or a packet network, there is an effect that it is possible to prevent the image from being significantly deteriorated in the facsimile terminal on the receiving side.
[0069]
  According to the present invention, the facsimile signal output from the facsimile terminal and the facsimile signal are used.Verbose output beforeGenerated by combining with facsimile signalA plurality of frames including first frame data and second frame data;If the receiving means for receiving the frame data and the first frame data are transmitted without being discarded during transmission, the receiving meansReceiveWasIncluded in the first frame dataFacsimile signal is output,FirstIf the frame data is discarded during transmission,Of the discarded first frame dataEquivalent to facsimile signalRedundancy included in second frame dataThe signal selecting means for outputting redundant facsimile signals included in the frame data is effective in preventing significant image deterioration in the receiving facsimile terminal.
[0070]
According to the present invention, the receiving means decomposes the received frame data into a facsimile signal output from the facsimile terminal and a redundant facsimile signal output before the facsimile signal, and the second storage means The facsimile signal decomposed by the receiving means is accumulated. When the first frame data is discarded during transmission, the signal selecting means discards the facsimile signal accumulated in the second accumulation means. In addition, since the redundant facsimile signal included in the second frame data corresponding to the facsimile signal of the first frame data is output, it is possible to prevent the image from being significantly deteriorated in the receiving facsimile terminal. effective.
[0071]
  According to the present invention, the facsimile signal output from the facsimile terminal and the output prior to the facsimile signal.RedundantSince the frame data is generated by combining with the facsimile signal and the frame data is output to the transmission path, it is possible to prevent the occurrence of communication abnormality in the receiving facsimile terminal.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a flowchart showing a facsimile signal transmission method applied to the facsimile signal transmission apparatus according to Embodiment 1 of the present invention.
FIG. 3 is an explanatory diagram showing storage contents of a facsimile signal storage unit and a restoration data storage unit.
FIG. 4 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 2 of the present invention.
FIG. 5 is an explanatory diagram showing storage contents of a facsimile signal storage unit and a restoration data storage unit.
FIG. 6 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 3 of the present invention.
FIG. 7 is an explanatory diagram showing a section in which dummy data is inserted.
FIG. 8 is a block diagram showing a facsimile signal transmission apparatus according to a fifth embodiment of the present invention.
FIG. 9 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 6 of the present invention.
FIG. 10 is an explanatory diagram showing a section in which line data is inserted.
FIG. 11 is a block diagram showing a facsimile signal transmission apparatus according to an eighth embodiment of the present invention.
FIG. 12 is an explanatory diagram showing a section in which line data is inserted.
FIG. 13 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 9 of the present invention.
FIG. 14 is a block diagram showing a facsimile signal transmission apparatus according to Embodiment 10 of the present invention.
FIG. 15 is a block diagram showing a conventional facsimile transmission apparatus.
[Explanation of symbols]
  21, 32 Facsimile terminal, 25, 36 Facsimile signal storage unit (first storage unit), 26, 37 Selector (transmission unit), 27, 38, 47, 51 Frame assembly unit (transmission unit), 28, 39 Transmission path 29, 40, 48, 52 Frame decomposition unit (reception unit), 30, 41 Restored data storage unit (second storage unit) 31, 42, 50, 54, 56, 58 Selector (signal selection unit), 43 , 45 Data compression unit (compression unit), 44, 46 Data decompression unit (decompression unit), 49, 53 Dummy data generation unit (signal selection unit), 55, 57 Buffer (storage unit), 59, 62 Buffer (signal selection) Means), 60, 63 EOL detector (detector), 61, 64 line data generator (signal selector), 65, 66 line data inserter (signal selector) ), 67,68 encoding capacity changing unit (transmitting means), 69 and 70 the minimum scanning time capacity changing part (sending means).

Claims (9)

In a facsimile signal transmission apparatus for transmitting a facsimile signal output from a facsimile terminal between a plurality of facsimile terminals,
A transmission means for generating frame data by combining a facsimile signal output from the facsimile terminal and a redundant facsimile signal output before the facsimile signal and outputting the frame data to a transmission path is provided. A featured facsimile signal transmission device. A first storage means for storing a facsimile signal output from the facsimile terminal;
2. The facsimile signal transmission apparatus according to claim 1, wherein the transmission means generates frame data using the facsimile signal stored in the first storage means.   2. The facsimile signal transmission apparatus according to claim 1, wherein the transmission means combines the facsimile signal output from the facsimile terminal and a plurality of past facsimile signals to generate frame data.   The transmission means includes the nth facsimile signal output from the facsimile terminal, the (n−1) th facsimile signal before the facsimile signal, and the (n−1) th facsimile signal. 4. The facsimile signal transmission apparatus according to claim 3, wherein frame data is generated by combining with the (n-2) th output facsimile signal before. 2. The facsimile signal transmission apparatus according to claim 1, wherein the transmission means outputs the frame data a plurality of times. 2. The facsimile signal transmission apparatus according to claim 1, wherein the transmission line forms an ATM network or a packet network. In a facsimile signal receiving apparatus for receiving from a facsimile terminal among a plurality of facsimile terminals,
A plurality of frame data including first frame data and second frame data generated by combining a facsimile signal output from the facsimile terminal and a redundant facsimile signal output before the facsimile signal. Receiving means for receiving;
The case where the first frame data is transmitted without being discarded during transmission, and outputs the facsimile signal contained in the received said first frame data by the receiving means, the first frame - A signal for outputting a redundant facsimile signal included in redundant frame data included in the second frame data corresponding to the discarded facsimile signal of the first frame data when the frame data is discarded during transmission A facsimile signal receiving apparatus comprising: a selecting unit. Second storage means for storing a facsimile signal in which frame data is decomposed;
  The receiving means decomposes the received frame data into a facsimile signal output from the facsimile terminal and a redundant facsimile signal output before the facsimile signal,
  The second storage means stores the facsimile signal decomposed by the receiving means;
  When the first frame data is discarded during transmission, the signal selecting means selects the discarded first frame data from the facsimile signal stored in the second storage means. 8. The facsimile signal receiving apparatus according to claim 7, wherein a redundant facsimile signal included in the second frame data corresponding to a signal is output. In a facsimile signal transmission method for transmitting a facsimile signal output from a facsimile terminal between a plurality of facsimile terminals,
A facsimile signal characterized in that a facsimile signal output from the facsimile terminal and a redundant facsimile signal output before the facsimile signal are combined to generate frame data, and the frame data is output to a transmission line. Transmission method.

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