JP3512733B2 - Facsimile communication method and facsimile apparatus - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention is based on the ITU-T Recommendation T.264. The present invention relates to a facsimile communication method and a facsimile device conforming to 30.

[0002]

2. Description of the Related Art Terminal characteristics of G3 facsimile machines are IT
UT Recommendation T.T. 4, the transmission procedure is according to Recommendation T.264. It is regulated by 30. In the G3 facsimile, the scanned document data is not used as it is but is encoded to shorten the communication time. In FIG. 4, the modulator / demodulator (modem) used is the V.V. 27ter
(2400 bps, 4800 bps) is standard, but V. 29 (7200, 9600 bps) and V.29. 17
(7200, 9600, 12000, 14000bp
s) is also specified so that it can be used.

A facsimile transmission procedure is shown in FIG.
It is divided into five phases, ~ D. In phase A (call setup), connection with the partner station is established. In phase B (pre-message procedure), the function is identified and the communicable condition is selected. The identification section provides group identification, acknowledgment, subscriber identification, non-standard feature identification, and the command section provides group commands, phase / training,
Perform procedures such as synchronization, optional commands, transmission line adjustment, and echo suppressor cancellation. In phase C (message transmission), facsimile encoded data is transmitted. The document is sent page by page. The facsimile message is encoded, and one page is divided into 256 frames, and each frame is transmitted with a frame number.
In phase D (post message procedure), a procedure for confirmation after transmission of one page and transmission of multiple pages is executed. Message end signal (EOM), multi-page signal (MPS), facsimile control procedure end signal (EO
P), confirmation signal (MCF) and the like are exchanged, the process proceeds to phase B in the case of EOM and the phase C in the case of MPS, and the above procedure is repeated. In the case of EOP, the process moves to the next phase E. In phase E (call release), the connection is terminated and the line is released.

Then, Recommendation T.W. In 30, an error correction communication mode (hereinafter referred to as ECM communication) is defined as an optional function to enable transmission / reception of an image without a transmission error. At the receiving side, the number of the frame in which the error occurred is sent to the transmitting side as a partial page request signal (hereinafter referred to as PPR).
Then, the transmitting side retransmits only the notified frame. FIG. 7 shows an example of an error correction sequence in ECM communication. This process is as follows. 1) Divide data into 256 frames and send partial pages. 2) When transmission of 256 frames is completed, the transmission side sends a partial page signal PPS-EOP. 3) In this example, since frames 1 and 3 could not be received correctly, PPR for requesting retransmission of the frame
Send a signal to the sender. FIG. 9 shows the frame structure of the PPR signal.
Shown in. The frame to be retransmitted is indicated by setting the corresponding bit of the 256-bit error map data in the facsimile information field (FIF) to 1. 4) The transmission side that receives the PPR signal retransmits only the requested frames 1 and 3. 5) Frame 1 could not be received correctly this time, so
The receiving side sends the PPR signal again to the transmitting side. 7) The transmitting side retransmits the frame 1. 8) Since the frame 1 was correctly received, the receiving side sends an MCF signal for message confirmation to the transmitting side. The PPR retransmission is performed up to four times. If the error is not resolved even after four retransmissions and the retransmission operation is continued,
As shown in, the facsimile message is retransmitted by designating the change of the modem speed by the correction continuation signal (hereinafter referred to as CTC) from the transmitting side before the fifth retransmission. At the 5th retransmission, it is transmitted at a modem speed different from the 4th transmission.

The conventional ITU-T T. A facsimile device conforming to No. 30 has a problem in that if the line condition at the time of facsimile message communication is deteriorated from the condition at the start of communication, communication time may be significantly increased. The reason for this is that the conventional CTC modem speed change is a method of searching for a receivable modem speed of a receiver when an error occurs while decreasing the transmission modem speed by a predetermined amount of decrease. This is because the modem speed at which an error does not occur in a facsimile message cannot be immediately and accurately determined because the modem speed is not transmitted after being negotiated with the receiver. For example, 2400bp by CTC
It is a system that changes the speed in s increments.
When a speed change of 200 bps is required, retransmission is performed 4 times for each speed change, so 12 retransmissions are finally generated, and communication time due to this retransmission is all wasted time. . Also, 4800bp by CTC
A system that changes the speed in s increments, originally 240
If the reception is possible by changing the 0 bps, the modem speed is changed to an unnecessary low speed, which causes an increase in communication time.

[0006]

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and its object is to meet ITU-T Recommendation T.S. In mutual communication of facsimile communication conforming to 30, even in an environment where an error is likely to occur in a facsimile message depending on the line status,
(EN) Provided are a facsimile communication method and a facsimile device, which can improve communication time efficiency by selecting an optimum modem speed based on negotiation with a receiver by a transmitter and have high communication reliability. It is in.

[0007]

Facsimile communication method of the invention according to claim 1 of the present invention In order to achieve the above object, according, ITU-T T. Three
In the error correction function, which is one of the facsimile communication functions recommended in 0, when an error resend due to the partial page request signal (PPR signal) from the receiving facsimile occurs, the modem speed is sent by the correction continuation signal (CTC). And the first modem speed changing procedure for changing the number of times, and when an error retransmission due to the PPR signal occurs, the sending side facsimile sends a message end signal (PPS-EOM signal) after the end of transmission of the next facsimile message for which the retransmission is normally completed. Then
A second procedure in which the training procedure according to the phase B of the procedure defined in the five phases from A to E is re-executed with the receiving facsimile and the modem speed is changed by negotiation with the receiving facsimile. A facsimile communication method comprising a modem speed changing procedure and capable of switching the modem speed changing procedure from a first modem speed changing procedure to a second modem speed changing procedure under predetermined specific conditions , Predefined specific article
The transmission error occurred in the consecutive block pages.
It is characterized by the case . In addition, claim 2 of the present invention
Facsimile communication method of the invention related to ITU-T
T. 1 of the facsimile communication functions recommended in 30
In the error correction function, which is one of the
Error retransmission by partial page request signal (PPR signal)
When the error occurs, the modem speed is changed by the correction continuation signal (CTC).
First Modem Speed Change Procedure for Changing Degree, and PPR Signal
When an error is retransmitted due to
Retransmission has been completed normally.
After completion, send message end signal (PPS-EOM signal)
Out, defined in 5 phases from A to E
The training procedure according to Phase B of the procedure is
Re-execute with Xumimil and make a mistake with the receiving facsimile.
Change the modem speed by negotiation
2 modem speed change procedure, and a predetermined specific condition
In case of the above, from the first modem speed change procedure to the second modem speed
Change the modem speed change procedure to
It is a facsimile communication method that can
Conditions continue in the same frame on the same block page.
This is the case when a transmission error occurs due to the transmission .
The facsimile communication method of the invention according to claim 3 of the present invention is ITU-T T.264. Faxi which is recommended in 30
In the error correction function, which is one of the millimeter communication functions, reception
Partial page request signal (PPR
No.) error re-transmission occurs, the correction continuation signal (CT
First modem speed change to change the modem speed according to C)
Procedure and transmission when error retransmission by PPR signal occurs
The facsimile on the side receives the next fax
Message end signal (PPS
-EOM signal) is transmitted, and five phases from A to E are sent.
According to Phase B of the procedure defined in
Re-execute the communication procedure with the facsimile on the receiving side to
Modeled by negotiation with a facsimile
A second modem speed change procedure for changing the mobile speed,
The first modem speed change procedure when the predetermined specific condition is met.
To second modem speed change procedure, modem speed change procedure
It is a facsimile communication method that can switch
And the specific condition that is set in advance is multiple
From this, you can specify one arbitrarily.
Mm communication method . The facsimile communication method of the invention according to claim 4 of the present invention is ITU-T T.264. Recommended by 30
Error correction, which is one of the facsimile communication functions
In normal function, partial page from the receiving facsimile
When error retransmission due to the request signal (PPR signal) occurs,
Change modem speed by continue correction signal (CTC)
Modem speed change procedure of 1 and error retransmission by PPR signal
When the error occurs, the sender's fax machine completes the resend normally.
Message is sent after the next fax message is sent.
The end signal (PPS-EOM signal) from A to E
Phase of procedure defined in 5 phases up to
Follow the training procedure by B between the receiving side facsimile
And negotiate with the receiving facsimile (negotiation
Second modem speed to change the modem speed according to
And a change procedure, and when a predetermined specific condition is satisfied, the first
From the modem speed change procedure to the second modem speed change procedure,
A fax machine that can switch the modem speed change procedure.
It is a millimeter communication method, and the modem speed change procedure is automatically
It has a function to switch to
It can be enabled or disabled with a switch.
And are characterized . The facsimile apparatus of the invention according to claim 5 of the present invention is ITU-T T.264. In the error correction function, which is one of the facsimile communication functions recommended in No. 30, when an error resending by the partial page request signal (PPR signal) from the receiving facsimile occurs, the modem speed is sent by the correction continuation signal (CTC). First to change
When the modem speed change procedure of step 1 and the error retransmission by the PPR signal occur, the sending side facsimile sends a message end signal (PPS-EOM signal) after the end of transmission of the next facsimile message after the normal end of the retransmission, and A to E Phase B of the procedure defined in the five phases up to
And a second modem speed changing procedure for changing the modem speed through negotiation with the receiving facsimile to re-execute the training procedure by the receiving facsimile. A facsimile apparatus having means for switching the modem speed change procedure from the first modem speed change procedure to the second modem speed change procedure , wherein a predetermined specific condition is a continuous
If there is a transmission error on the lock page
Characterize . The facsimile apparatus of the invention according to claim 6 of the present invention is ITU-T T.264. Became a recommendation at 30
Error correction function, which is one of the existing facsimile communication functions
At, the partial page request message from the receiving facsimile
If an error retransmission due to the signal (PPR signal) occurs, the correction
The first mode for changing the modem speed by line signal (CTC).
Dem speed change procedure and error retransmission due to PPR signal occurred
When the sending fax is
Message ends after sending the fax message
Signal (PPS-EOM signal) is sent and
According to Phase B of the procedure defined in 5 phases
Re-implement the training procedure with the receiving facsimile.
And negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And the first mode under certain specific conditions.
From the modem speed change procedure to the second modem speed change procedure.
Facsimile having means for switching speed changing procedure
It is a device, and the predetermined condition is the same block.
Transmission error occurred continuously in the same frame of the page
It is characterized by the case . In addition, claim 7 of the present invention
The facsimile apparatus of the invention related to ITU-T. Three
It is one of the facsimile communication functions recommended as 0.
In the error correction function that
Error resend due to minute page request signal (PPR signal)
Change the modem speed by the correction continuation signal (CTC).
Further first modem speed change procedure and by PPR signal
When an error retransmission occurs, the sending facsimile
After sending the next successfully completed fax message
Send a message end signal (PPS-EOM signal),
Of the procedure defined in the five phases A to E
Follow the training procedure by Phase B
Re-communication with the receiver to negotiate with the receiving facsimile (net
The second mode that changes the modem speed by
With a dem speed change procedure,
When changing the first modem speed change procedure from the second modem speed change procedure,
There is a means to switch the modem speed change procedure to the update procedure.
Facsimile machine that has a predetermined condition
Is multiple, and one can be arbitrarily specified from multiple conditions
It is characterized by Further, the facsimile apparatus of the invention according to claim 8 of the present invention is ITU-T T. Solicit with 30
An error that is one of the notified facsimile communication functions
In the correction function, the partial page from the receiving facsimile
Error retransmission due to the request signal (PPR signal) occurred
At this time, the modem speed is changed by the correction continuation signal (CTC)
First modem speed change procedure and error due to PPR signal
When a resend occurs, the sending fax machine sends the resend normally.
After sending the next completed fax message,
Send a sage end signal (PPS-EOM signal)
To E of the procedure defined in the five phases
The training procedure by user's B
Between the receiving side facsimile and negotiation (negotiation
Second modem to change the modem speed according to
It is equipped with a speed change procedure and
From 1 modem speed change procedure to 2nd modem speed change procedure
To a modem that has means for switching the modem speed change procedure.
Switched between modem speed change procedures on ximili devices
Means has a function to switch automatically,
Has a switch to enable or disable the function to be replaced
It is characterized by

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a block diagram showing the functional arrangement of a facsimile apparatus of the present invention. The configuration is such that a control unit 1 that controls all device operations, a UI control unit 2 that specifies the operation conditions of the present invention, and a UI control unit 2 that sets switches that enable or disable the operation functions of the present invention, A storage unit 3 for storing various operating conditions of the present invention and various kinds of information relating to PPR, a communication control unit 4 for controlling a facsimile communication protocol including a modem speed changing procedure of the present invention, and a received partner signal are analyzed. Then, the signal analysis unit 5 for determining the next procedure signal, the modem unit 6 for setting the modem speed and the modulation and demodulation, the line control unit 7 for controlling the line, and the image processing for encoding and decoding the image data. The unit 8 includes a printing unit 9 that prints image data, and a scanner unit 10 that reads image data. The operation condition of the present invention is a condition for negotiating with the receiver to change the modem speed, that is, the same as when an error occurs in consecutive block pages, as shown in an embodiment in a communication sequence example described later. This refers to the case where an error occurs more than once in the same frame of a page.

Next, the basic operation of the facsimile apparatus of the present invention will be described. First, a condition for operating the present invention is designated by the UI control unit 2 in the device of the present invention. The designated information is stored in the storage unit 3. Next, when the apparatus of the present invention starts the ECM transmission operation, the control unit 1 causes the storage unit 3 to operate.
Further, the communication control unit 4 is notified of the information necessary for communication including the conditions for operating the present invention. The communication control unit 4 controls the signal analysis unit 5, the modem unit 6, and the line control unit 7 to execute the communication procedure with the receiver, and is read by the scanner unit 10 and compressed by the image processing unit 8. The facsimile message is converted into an HDLC frame and transmitted to the receiver. The signal analysis unit 5 stores various pieces of information regarding the PPR from the receiver and determines whether or not the control unit 1 first matches the condition notified to the communication control unit 4. If they match, the modem speed change procedure according to the present invention is instructed. If they do not match, the next process is instructed according to the response signal or the communication sequence. The communication control unit 4 follows the instruction result,
Communicate with the receiver.

Further, regarding the detailed operation of the present invention, referring to the drawings, a detailed ITU-T recommendation T.264. A description will be given with 30 signal sequence examples. The first embodiment of the present invention, which is the operation of changing the modem speed when an error occurs in consecutive block pages is a condition for negotiating with the receiver to change the modem speed, And FIG.
The description will be made with reference to FIG. 2 shows an example of a communication sequence for changing the modem speed of the present invention when an error occurs in consecutive block pages, and FIG. 4 shows a control flow of a fallback procedure by the communication control unit 4. Further, FIG. 5 shows a signal analysis and a next procedure determination control flow by the signal analysis unit 5. Referring to the control flow of the communication control unit of FIG. 4, first, when the communication control unit 4 receives the response signal from the modem unit 6 (process 2), the signal analysis unit 5 performs the signal analysis and the next procedure determination process. Instruct (process 3). Referring to the control flow of the signal analysis unit in FIG. 5, the signal analysis unit 5 instructed to perform the signal analysis and the next procedure determination process.
Analyzes the type of the response signal (branch 1), and in the case of PPR, the conditions under which the present invention operates, such as PPR error frame information and the number of PPR receptions, that is, "error in consecutive block pages". After storing the information necessary for determining "occurrence" in the storage unit 3 (processing 1), PP
The number of R receptions is determined (branch 2).

Referring to FIG. 2, an error occurs in the transmission of the facsimile message 1 in the procedure sequence, and the fourth PPR is received (S3 in FIG. 2). Therefore, the signal analysis unit 5 uses the ITU-T recommendation T.264. According to the recommendation of No. 30, the following procedure is determined to be the conventional CTC modem speed change procedure (branch 2 in FIG. 5) and the communication control unit 4 is notified. Figure 2 again
Referring to, after the modem speed is changed by the conventional CTC (S3, S4, S5), the facsimile message 1 is normally transmitted (S6, S7, S8), and the transmission of the facsimile message 2 is started. Facsimile message 2
In each control after sending (S9, S10), the response signal is received by the modem unit 6, and the signal analysis and the next procedure determination process are performed by the signal analysis unit 5 as in the transmission of the facsimile message 1. Referring to FIG. 2, the response signal in the facsimile message 2 is also PPR (S11).
Therefore, the signal analysis unit 5 further stores in the storage unit 3 information necessary for determining the conditions under which the present invention operates, such as error frame information of the PPR signal and the number of PPR receptions. Then, the facsimile message 2 is retransmitted (S1
2, S13), and is normally transmitted (S14). Figure 2
FIG. 4 is an example of a communication sequence of modem speed change according to the present invention when an error occurrence in consecutive block pages is an operating condition of the present invention. That is, an error occurs in the facsimile message 2 after the facsimile message 1. Therefore, various information regarding the PPR of the storage unit 3 stored by the PPR reception for the facsimile message 2 and the conditions under which the present invention operates. That is, the "error occurrences in consecutive block pages" are in agreement. Therefore, referring to FIG. 5, the facsimile message 2 is transmitted normally, and the MC message
When F is received (branch 2), the signal analysis unit 5 notifies the communication control unit 4 that there is a modem speed change operation request according to the present invention as shared information with the communication control unit 4 (process 4). Referring to FIG. 2, when the facsimile message 2 is normally transmitted (S12, S13, S14), the facsimile message 3 is transmitted (S15). After that, referring to FIG. 4, the communication control unit 4 determines whether the signal analysis unit 5 has notified that there is a request for a modem speed change operation according to the present invention, and determines that there is a notification (branch 2). Therefore, the communication control unit 4 sends a PPS-EOM signal (process 5 in FIG. 4, S16 in FIG. 2) and changes the communication sequence to phase B (FIG. 6). Then, the training procedure with the receiver is re-executed to change the modem speed (S1 in FIG. 2).
8 to S24). The procedure is as follows: from the receiver side, to the transmitter side, an NSF frame signal indicating a non-standard function, a called terminal identification signal CSI signal, and a digital identification signal DIS indicating that the receiver has an ITU-T standard reception function. Send (S1
8). A DCS signal, which is a command signal indicating a function to be set among the standard functions displayed by the non-standard function setting signal NSS, the transmission terminal identification signal TSI, and the DIS signal, is transmitted from the transmitter side (S19), and A training check signal TCF is sent to check whether the channel can be used at this transmission rate (S20). However, a training failure signal FTT indicating that the modem training signal cannot be received at this transmission speed is sent from the receiver (S21). The transmitter changes the transmission rate again and performs training (S22, S23). This time, the reception preparation confirmation signal CFR is sent from the receiver to notify that the reception is possible. As a result, the receivable modem speed of the receiver is redetermined even under the deteriorated line condition, and the reception of the facsimile message 4 and thereafter is performed at an appropriate modem speed (S25 to S2).
7).

Next, a second embodiment of the present invention, the operation of changing the modem speed when an error occurs in the same frame of the same block page will be described with reference to FIG. Figure 3
Is the same block page (Facsimile message 1)
2 is an example of a communication sequence for changing the modem speed when the occurrence of an error in the same frame (x frame) is the operating condition of the present invention. In this case as well, the control flow is realized by the same control as in FIG.

As in the sequence examples shown in FIGS. 2 and 3, examples in which the communication time increases due to the deterioration of the line condition vary depending on the environment in which the facsimile machine is used and the line characteristics of the place where it is installed. There are many possible cases.
Therefore, a new function such that the condition for operating the present invention can be designated by the UI control unit 2, automatically switched, or an automatic switching function can be selected by a switch, etc. By adding, it is possible to efficiently select an appropriate modem speed according to all communication environments, realize efficient communication time, and as a result, provide optimum communication.

[0014]

As described above, the ITU-of the present invention
Recommendation T. In ECM communication of a facsimile device conforming to 30, a facsimile having excellent communication quality and high reliability is performed by performing a modem speed changing procedure at the time of error retransmission in accordance with the line condition based on negotiation with a receiver. A device is provided. More specifically, the following effects are exhibited. The first effect is that the communication time can be made more efficient than the related art. The reason is that in the prior art,
Since the transmitter unilaterally determines the modem speed when changing the modem speed, there is a possibility that error retransmission will be actually performed at the speed at which the facsimile message cannot be received, and unnecessary modem speed change may occur. Since the present invention negotiates with the receiver, the optimum modem speed can always be determined. The modem speed change by resending the facsimile message is executed after the error resending at the same speed is performed four times. The retransmission time is also proportional to the number of error frames. For example, if all frames are retransmitted, the communication time becomes enormous. Therefore, by performing the fallback procedure according to the present invention, it is possible to always determine the optimum modem speed even in a deteriorated line condition, so that the error retransmission frequency is reduced and the communication time due to error retransmission can be prevented from increasing. It is due to.

The second effect is that the conditions under which the present invention operates can be specified according to the communication environment and line characteristics. The reason is that there are various changes in the line status and the conditions can be specified according to the status, so that the present invention can be effectively utilized to the maximum extent in all environments.

[Brief description of drawings]

FIG. 1 is a functional block diagram of a facsimile apparatus of the present invention.

[FIG. 2] When an error occurs in consecutive block pages,
It is an example of a communication sequence for changing the modem speed in the present invention.

FIG. 3 is an example of a communication sequence for changing the modem speed in the present invention when an error occurs in the same block page and the same frame.

FIG. 4 is a diagram showing a fallback procedure control flow by the communication control unit 4 in the present invention.

FIG. 5 is a diagram showing a signal analysis and a next procedure determination control flow by the signal analysis unit 5 in the present invention.

FIG. 6 ITU-T T. It is a figure which shows the phase of 30 facsimile transmissions.

FIG. 7 is a diagram showing an example of an error correction sequence in ECM communication.

FIG. 8 is a diagram showing an example of a sequence of changing a modem speed by CTC.

FIG. 9 is a diagram showing a frame structure of a PPR signal.

[Explanation of symbols]

1 control unit 2 UI control unit 3 storage 4 Communication control unit 5 Signal analysis section 6 Modem section 7 line control unit 8 Image processing section 9 Print department 10 Scanner section

─────────────────────────────────────────────────── ─── Continued Front Page (56) References JP-A-7-30738 (JP, A) JP-A-11-164117 (JP, A) JP-A-1-141431 (JP, A) JP-A-5- 167819 (JP, A) JP-A 9-65091 (JP, A) JP-A 5-260123 (JP, A) JP-A 60-125053 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04N 1/32-1/36 H04N 1/42-1/44

Claims (8)

(57) [Claims] 1. The ITU-TT. In the error correction function, which is one of the facsimile communication functions recommended in No. 30, when the error resending by the partial page request signal (PPR signal) from the receiving facsimile occurs, the modem speed is sent by the correction continuation signal (CTC). The first modem speed changing procedure for changing the number of messages, and when an error retransmission due to the PPR signal occurs, the transmitting side facsimile sends a message end signal (PPS-EOM signal) after the end of transmission of the next facsimile message in which the retransmission is normally completed. Sending and re-execution of the training procedure according to Phase B of the procedure defined in the five phases from A to E with the receiving side facsimile, and changing the modem speed by negotiation with the receiving side facsimile (negotiation). A second modem speed changing procedure, and when a predetermined specific condition is met, the first modem The modem speed changes the steps second modem speed change procedure, a facsimile communication method capable of switching the modem speed change procedure, block page said predetermined certain conditions, consecutive
When a transmission error occurs in
Aximili communication method. 2. ITU-TT. 30 has become a recommendation
Error correction function, which is one of the facsimile communication functions
And a partial page request signal from the receiving facsimile
Continue correction when error retransmission due to (PPR signal) occurs
First model for changing modem speed by signal (CTC)
The speed change procedure and the error retransmission due to the PPR signal are issued.
When it occurs, the sender's fax machine has successfully completed resending.
Message end after sending the next fax message
Send the end signal (PPS-EOM signal) from A to E
To Phase B of the procedure defined in the five phases of
Repeat the training procedure with the receiving facsimile.
Execute and negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And a predetermined specific condition, the first
From the modem speed changing procedure to the second modem speed changing procedure
To the modem speed change procedure.
In the X-millimeter communication method, the predetermined specific condition is the same block page
This is the case when transmission errors occur continuously in one frame.
A facsimile communication method characterized by the above. 3. ITU-TT. 30 has become a recommendation
Error correction function, which is one of the facsimile communication functions
And a partial page request signal from the receiving facsimile
Continue correction when error retransmission due to (PPR signal) occurs
First model for changing modem speed by signal (CTC)
The speed change procedure and the error retransmission due to the PPR signal are issued.
When it occurs, the sender's fax machine has successfully completed resending.
Message end after sending the next fax message
Send the end signal (PPS-EOM signal) from A to E
To Phase B of the procedure defined in the five phases of
Repeat the training procedure with the receiving facsimile.
Execute and negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And a predetermined specific condition, the first
From the modem speed changing procedure to the second modem speed changing procedure
To the modem speed change procedure.
And a plurality of predetermined conditions,
A file characterized by arbitrarily specifying one from the conditions
Kushimil communication method . 4. The ITU-TT. 30 has become a recommendation
Error correction function, which is one of the facsimile communication functions
And a partial page request signal from the receiving facsimile
Continue correction when error retransmission due to (PPR signal) occurs
First model for changing modem speed by signal (CTC)
The speed change procedure and the error retransmission due to the PPR signal are issued.
When it occurs, the sender's fax machine has successfully completed resending.
Message end after sending the next fax message
Send the end signal (PPS-EOM signal) from A to E
To Phase B of the procedure defined in the five phases of
Repeat the training procedure with the receiving facsimile.
Execute and negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And a predetermined specific condition, the first
From the modem speed changing procedure to the second modem speed changing procedure
To, it is possible to switch the modem speed change procedure file
A communication method that automatically switches the modem speed change procedure.
The automatic switching function is enabled by the switch
Or a fax characterized by being able to be disabled
Simili communication method. 5. The ITU-TT. In the error correction function, which is one of the facsimile communication functions recommended in No. 30, when the error resending by the partial page request signal (PPR signal) from the receiving facsimile occurs, the modem speed is sent by the correction continuation signal (CTC). The first modem speed changing procedure for changing the number of messages, and when an error retransmission due to the PPR signal occurs, the transmitting side facsimile sends a message end signal (PPS-EOM signal) after the end of transmission of the next facsimile message in which the retransmission is normally completed. Sending and re-execution of the training procedure according to Phase B of the procedure defined in the five phases from A to E with the receiving side facsimile, and changing the modem speed by negotiation with the receiving side facsimile (negotiation). A second modem speed changing procedure, and when a predetermined specific condition is met, the first modem The modem speed change procedure the second modem speed change procedure from a facsimile apparatus having a means for switching the modem speed change procedure, block page said predetermined certain conditions, consecutive
When a transmission error occurs in
Aximili device. 6. The ITU-TT. 30 has become a recommendation
Error correction function, which is one of the facsimile communication functions
And a partial page request signal from the receiving facsimile
Continue correction when error retransmission due to (PPR signal) occurs
First model for changing modem speed by signal (CTC)
The speed change procedure and the error retransmission due to the PPR signal are issued.
When it occurs, the sender's fax machine has successfully completed resending.
Message end after sending the next fax message
Send the end signal (PPS-EOM signal) from A to E
To Phase B of the procedure defined in the five phases of
Repeat the training procedure with the receiving facsimile.
Execute and negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And a predetermined specific condition, the first
From the modem speed changing procedure to the second modem speed changing procedure
To a modem that has means for switching the modem speed change procedure.
In the X-millimeter device, the predetermined specific condition is the same for the same block page.
This is the case when transmission errors occur continuously in one frame.
A facsimile device characterized by the above. 7. The ITU-TT. 30 has become a recommendation
Error correction function, which is one of the facsimile communication functions
And a partial page request signal from the receiving facsimile
Continue correction when error retransmission due to (PPR signal) occurs
First model for changing modem speed by signal (CTC)
The speed change procedure and the error retransmission due to the PPR signal are issued.
When it occurs, the sender's fax machine has successfully completed resending.
Message end after sending the next fax message
Send the end signal (PPS-EOM signal) from A to E
To Phase B of the procedure defined in the five phases of
Repeat the training procedure with the receiving facsimile.
Execute and negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And a predetermined specific condition, the first
From the modem speed changing procedure to the second modem speed changing procedure
To a modem that has means for switching the modem speed change procedure.
In the X-millimeter device, the predetermined specific condition is a plurality of
A file characterized by arbitrarily specifying one from the conditions
Kushimil equipment . 8. The ITU-TT. 30 has become a recommendation
Error correction function, which is one of the facsimile communication functions
And a partial page request signal from the receiving facsimile
Continue correction when error retransmission due to (PPR signal) occurs
First model for changing modem speed by signal (CTC)
The speed change procedure and the error retransmission due to the PPR signal are issued.
When it occurs, the sender's fax machine has successfully completed resending.
Message end after sending the next fax message
Send the end signal (PPS-EOM signal) from A to E
To Phase B of the procedure defined in the five phases of
Repeat the training procedure with the receiving facsimile.
Execute and negotiate with the receiving facsimile (negotiation
Second modem speed change to change the modem speed
And a predetermined specific condition, the first
From the modem speed changing procedure to the second modem speed changing procedure
To a modem that has means for switching the modem speed change procedure.
A device for switching between the modem speed change procedures automatically
It has a switching function and enables or disables the automatic switching function.
A facsimile machine having a switch.