JPS63232676A - Facsimile equipment - Google Patents

Abstract

PURPOSE:To immediately cope with a change in kind of machine on a communicating partner side even if the change is made on the partner side so that communication can always be made surely and in the optimum transmission mode, by providing a transmission mode informing means, transmission mode discriminating means, and transmission mode changing means. CONSTITUTION:At the time of calling from a learning calling means, a transmission mode informing means A informs the communicating partner device on the called side of the transmission mode information of the partner device stored in a memory. When its own transmission mode information is informed from the calling side at the time of calling, the transmission mode information informed from a transmission mode discriminating means B is compared with the current own transmission mode information. When both pieces of information do not coincide with each other, the current information is sent to the calling side and, when the current information is sent from the called side after the means A informs the transmission mode information, the storing content of the memory is replaced with the current transmission mode information by means of a transmission mode changing means C. Then the communication is carried out in accordance with the changed transmission mode information. When the current transmission mode information does not arrive, the communication is continued in the same transmission mode.

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial Application Field) The present invention relates to an improvement of a facsimile machine having a learning function.

(Prior Art) In recent years, with the promotion of office automation, facsimile machines have come into widespread use, and some of them are equipped with a learning function. This type of device uses transmission mode information of the communication partner device, such as MF, GIl, G
I [I etc. are determined by input operation by the operator or by actual communication and are stored in the memory, and control procedures are performed based on the transmission mode information stored in the memory when a call is made to the communication partner device. is set, and connection control with the communication partner device is performed according to this control procedure. When using such a device, no matter what kind of transmission mode the communication partner device has, it can communicate with the communication partner device once and determine the optimal transmission mode between itself and the memory. If you store the information in the memory above, the next time you make a call, you can immediately start connection control according to the transmission mode information stored in the memory without having to perform a transmission mode determination procedure with the communication partner device. Therefore, it is possible to shorten the communication interval and perform efficient facsimile communication.

However, in this type of conventional device, once the transmission mode of the communication partner device is stored in the memory, connection control is performed based on this transmission mode regardless of the state of the communication partner device. If you change to a model with a different mode type or content, you may no longer be able to control the connection using the old model's transmission mode stored in memory, or even though you can use the transmission mode with superior performance. Communication would still be performed using the old transmission mode, which was extremely undesirable.

(Problems to be Solved by the Invention) As described above, in the conventional device, when the vs type of the communication partner device that has stored the transmission mode information in the memory is subsequently changed, the transmission mode is changed. However, this invention has the problem that connection control cannot be performed or connection control using a high-performance transmission mode cannot be performed. The purpose of the present invention is to provide a facsimile apparatus that can always perform connection control reliably and in an optimal transmission mode.

[Structure of the Invention] (Means for Solving the Problems) The present invention stores transmission mode information of a communication partner device in a memory, and when making a call to the communication partner device, the transmission mode information is stored in the memory. In a facsimile machine equipped with a learning call originating means that sets a control procedure based on transmission mode information and performs communication, as shown in FIG. means C, when the learned calling means makes a call, the transmission mode notifying means A notifies the communication partner device on the called side of the transmission mode information of the partner device stored in the memory; When the calling party notifies its own transmission mode information at the time of an incoming call, the transmission mode determination means B compares the notified transmission mode information with the current own transmission mode information, and if they do not match, this transmission mode information is The current transmission mode information is sent to the calling side, and when the called side sends the current transmission mode information after the transmission mode notification means A has notified the transmission mode information, the transmission mode changing means C The contents stored in the memory are changed to this current transmission mode information, communication is performed based on this changed transmission mode information, and if the above current transmission mode information does not arrive, communication is performed using the same transmission mode. It was designed to continue.

(Effect) As a result, even after storing the transmission mode information in memory,
Each time a call is made, the calling party notifies the called party of the transmission mode information of the called party's device stored in memory, and the called party then combines this notified transmission mode information with the current transmission mode information. If they do not match, the current transmission mode information is sent to the calling side, and the calling side changes the contents of its memory, so even if the model of the communication partner device is changed, When the first call is made after this change, the contents of the calling side's memory will be changed to the new transmission mode information. Therefore, the problem of communication being performed based on the old transmission mode information even after the model of the device on the called side is changed is resolved, and this ensures reliable and optimal transmission between the calling and called sides. It becomes possible to perform communication based on mode information.

(Embodiment) FIG. 2 is a circuit block diagram showing the configuration of a facsimile machine in one practical example of the present invention.

The eight facsimile devices include a reading section 11 that reads and scans a transmission document, a recording section 12 that records and scans received image signals, a signal processing section 15 that encodes and decodes image signals, and a signal processing section 15 that encodes and decodes image signals. A modem (MOD) that transmits control signals
) 16 and an exchange (not shown) via the subscriber line 2, a network control unit (NCU>17), a dial key for inputting the telephone number information of the communication partner device, this telephone number information, and the communication The operation display section 13 equipped with a visual display that displays the operating status, etc., and the transmission mode information M1, M2, etc. of the communication partner device are respectively associated with the telephone number 9 information, position 2, and so on. A random access memory (RAM>21) that stores the data, a backup power supply 22 that backs up the power to this RAM 21, and a dial pulse that generates a dial pulse according to the telephone number information stored in the RAM 21 in the case of a speed dial call and connects the subscriber line. A dial pulse generating circuit (OPD) 14 that sends out signals to the 2, a control section 20 that controls each of the above circuit sections, and a read-only memory that stores the control operation program of this control section 20 (
ROM) 18, and a random access memory (RAM) 19 for temporarily storing various control information.

By the way, the control section 20 has a microprocessor as its main control section, and in addition to normal communication control means and reading/recording scanning control means, it also controls communication with the communication partner device that made the first call, as shown in FIG. transmission mode storage control means 20a that determines the transmission mode information of the communication partner device and stores it in the RAM 21 during communication; learning call control means 20b that sets a control procedure with some procedures omitted based on transmission mode information and performs communication; and transmission mode notification control means 20.
c, transmission mode determination means 20d, and transmission mode change control means 20e. Among these, the transmission mode notification control means 20c notifies the communication partner device of the called side of the transmission mode information of the communication partner device stored in the RAM 21 when the learning call control means 20b makes a call. It is something. Further, the transmission mode determining means 20d
When the calling party notifies its own transmission mode information at the time of an incoming call, compares this own transmission mode information with the current transmission mode information, and if the image information does not match, the current transmission mode information is updated. It is sent to the calling party. When the called side sends the current transmission mode information after the transmission mode notification control means 20c notifies the transmission mode information, the transmission mode change control means 20e changes the old information of the communication partner device stored in the RAM 21. The transmission mode information is changed to the current new transmission mode information.

Next, the control unit 20 controls the operation of the device configured as described above.
This will be explained according to the control procedure. Here, an example will be explained in which a call is made to a device with GI [[ mode.

First, when communicating with a communication partner device that is making a call for the first time, the control unit 20 calls the partner device and then performs the process shown in FIG. 4 (a).
), the initial identification signal (CED) sent from the communication partner device on the called side and the NS with transmission mode information inserted.
Receive the F signal and DO8 signal, respectively. and,
Determine the transmission mode of the communication partner device from these signals,
This sets the optimum transmission mode to be used with the own device, inserts this transmission mode information into the NSS signal, and transmits it to the called device along with the DO8 signal. Thus, the transmission mode is set for each device on the calling and called sides. After the transmission mode is set, the control unit 20
Next, a training signal and a training check signal (TCP) are sent to the device on the called side, and when a reception confirmation signal (CFR) is received from the called side, the image signal read and scanned from the transmitted original is transmitted. Start sending. When the transmission of this image signal is finished, an EOM signal is sent to indicate the end of the message, and then the presence or absence of the next page of the transmitted original is determined. If there is, the above procedure is repeated, and if there is no 1, the procedure ends. Execute and return to standby state.

In addition, in the above communication control, the control unit 20 stores in the RAM 21 the optimum transmission mode information with the communication partner device set by the above transmission mode setting procedure in association with the telephone number information of the communication partner device. Thus, each time a call is made and communication is performed, the appropriate transmission mode information with the communication terminal device is stored in the RAM 21.

Now, if the operator performs a call operation again to the communication partner device whose transmission mode information is stored in the RAM 21 in this way, the control unit 20 calls the communication partner device according to the telephone number information, and at the same time, the control unit 20 calls the communication partner device according to the telephone number information, and also stores the telephone number from the RAM 21. It reads transmission mode information corresponding to the information and sets its own transmission mode based on this transmission mode information.

As shown in FIG. 4(b), at the time of line connection, the transmission mode information set by the self, the communication read from the RAM 21, and the transmission mode information of the other device are transmitted to N.
It is inserted into the SS signal and sent to the called party along with the DO8 signal. On the other hand, the communication terminal device on the called side monitors the arrival of the signal from the calling side for a predetermined period T (for example, 1 to 2 seconds) from the time the line is connected, and the signal must arrive within this period T. In this case, as shown in FIG. 4(a), the transmission of the CED signal is started, but as shown in FIG. 4(b), the N
When the SS signal and DO8 signal arrive, the own transmission mode information inserted in the NSS signal is compared with the current own transmission mode information. If the transmission mode information matches, it is determined that the reception operation is possible, and the N
The training signal is received from the calling side without sending out the SF signal and the DIS signal, and thereafter the image signal is received in the normal procedure. On the other hand, the control unit 20 of the device on the calling side,
After sending the NSS signal and DO8 signal, the arrival of the NSF signal and DIS signal from the called side is monitored for a certain period of time. If these signals do not arrive, it is determined that transmission is possible in the same transmission mode, and the training signal and TCP signal are sent out, and then the transmission of the image signal is started.

On the other hand, for example, if the model of the device on the called side is changed and the contents of the transmission mode change accordingly, the device on the called side will receive its own old transmission that has been inserted into the NSS signal from the calling side. As a result of comparing the mode information and the current new transmission mode information, it was determined that the image information did not match.
), the above current new transmission mode information is NSF
It is inserted into the signal and sent to the calling party along with the D(S signal).

In other words, the device on the calling side is prompted to relearn the transmission mode. On the other hand, the control unit 20 of the device on the calling side receives the NSS signal from the called side within a certain period of time after sending the NSS signal and the DC8 signal.
When the SF signal and the DIS signal arrive, it is determined that the transmission mode of the communication partner device has changed, and the old transmission mode information stored in the RAM 21 is inserted into the new transmission mode information that has arrived, and 1! exchange.

Then, the optimum transmission mode is reset based on this new transmission mode information, this transmission mode information is inserted into the NSS signal, and the signal is sent to the called device along with the DO8 signal.

Thus, a new transmission mode is set in each of the devices on the calling side and the called side, depending on the new model of the called side. Once the transmission mode is set, each device on the calling side and the called side thereafter performs connection control and transmission of both signals according to this transmission mode.

In this embodiment, the communication partner @ is stored in the RAM 21.
Even in the case of a call originating from a system that stores the transmission mode information of the device, the calling party notifies the called party of the transmission mode information of the other party's device, and the called party uses this notified transmission mode information and the current transmission mode. If the information does not match, the current transmission mode information is sent from the called side to the calling side to encourage relearning, and the calling side changes the memory contents of the RAM 21. Even if the model of the communication partner device is changed after transmission mode information is stored in the RAM 21, and the contents of the transmission mode change accordingly, the contents stored in the RAM 21 will be corrected when the first call is made after this change, and the contents stored in the RAM 21 will be changed from then on. Connection control and transmission and reception of image signals will be performed based on the new transmission mode information. As a result, problems such as being unable to communicate due to a mismatch in transmission modes, or still communicating in an inappropriate transmission mode even though it is possible to communicate in a more optimal transmission mode, are resolved.・This makes it possible to always communicate reliably and in the optimal transmission mode. Furthermore, by performing a learning call, it is possible to shorten communication time by not receiving CED signals, NSF signals, and CIS signals from the called side, and in this embodiment, the transmission mode information of the communication partner device is Since the called side is notified by inserting the NSS signal together with its own transmission mode information, the communication time can be shortened compared to the case where the transmission mode information of the communication partner device is notified independently.

Note that the present invention is not limited to the above embodiments. For example, in the above embodiment, the explanation has been given by taking the case of (1 mode) as an example, but it can be similarly implemented in GTI mode, MF mode, and other original modes.

In addition, regarding the procedures and contents of the transmission mode notification means, transmission mode change means, and transmission mode determination means,
Various modifications can be made without departing from the spirit of the invention.

[Effects of the Invention] As described in detail above, the present invention includes a transmission mode notification means, a transmission mode determination means, and a transmission mode change means, and when a seasonal call is made, the transmission mode notification means When the communication partner device on the calling side is notified of the transmission mode information of the other device stored in the memory, and when the calling side is notified of its own transmission mode information at the time of an incoming call, the transmission mode determining means The notified transmission mode information is compared with the current own transmission mode information, and if they do not match, the current transmission mode information is sent to the calling party, and the receiving party is notified of the transmission mode information by the transmission mode notification means. When the current transmission mode information is sent from the calling side, the transmission mode changing means changes the stored contents of the memory to the current transmission mode information, and communication is performed based on the changed transmission mode information. In addition, by continuing communication in the same transmission mode if the current transmission mode information does not arrive, it is possible to immediately respond to changes in the model of the communication partner device. As a result, it is possible to provide a facsimile device that can always perform communications reliably and in an optimal transmission mode.

[Brief explanation of the drawing]

Fig. 1 is a functional block diagram showing the configuration of a facsimile machine of the present invention, Fig. 2 is a circuit block diagram of a facsimile machine in an embodiment of the present invention, and Fig. 3 shows the control function of the suburban area of the same machine. The functional block diagram of FIG. 4 is a diagram showing the signal system of the facsimile machine shown in FIG. 2. A...Transmission mode notification means, B...Transmission mode notification means, C...Transmission mode changing means, ? 0...Control unit, 20a...Transmission mode storage control means, 20b...
Learning call control means, 20C: transmission mode notification control means, 20d: transmission mode determination means, 20e: transmission mode change control means. Applicant's agent Patent attorney Takehiko Suzue Figure 1 ZZ Figure 2 Calling party Called party (Q)

Claims (1)

[Claims] Learning calling in which transmission mode information of a communication partner device is stored in a memory, and when a call is made to the communication partner device, a control procedure is set and communication is performed based on the transmission mode information stored in the memory. transmission mode notification means for notifying a communication partner device on a called side of transmission mode information of the communication partner device stored in the memory when the learning call origination device makes a call; When the calling party notifies its own transmission mode information at the time of a call, this transmission mode information is compared with the current own transmission mode information, and if they do not match, the current transmission mode information is sent to the calling party. mode determining means, and when the current transmission mode information is sent from the called side after the transmission mode information is notified by the transmission mode notification means, the content stored in the memory is changed to the current transmission mode information; 1. A facsimile apparatus comprising: mode changing means for performing communication based on the current transmission mode information and for continuing communication in the same transmission mode if the current transmission mode information does not arrive.