JP3509680B2 - Communication method and communication terminal device - Google Patents

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to, for example, ITU-T.
(International Telecommunication Union) Recommendation V.
The present invention relates to a communication method and a communication terminal device for performing communication in accordance with the full-duplex communication method such as 8

[0002]

2. Description of the Related Art In recent years, ITU-
Recommendation V.T. A device capable of performing communication according to 8 has been proposed. This Recommendation V. In the case of communication according to FIG.
As shown in (a), after the line is connected, the called side sends an ANSam signal (modified response tone signal) to the calling side.
When the calling side detects the ANSam signal from the called side, it sends out a silence for the period Te and then sends out a CM signal (calling menu signal) to check whether its own function, for example, a facsimile machine. Information such as whether it is a telephone or a data modem is displayed on the called side. On the other hand, if the called side detects a CM signal during transmission of the ANSam signal, the C
In response to the M signal, the JM signal (common menu signal) indicating its own function is sent to the calling side. Further, the exchange of the CM signal and the JM signal determines the modulation mode between the calling side and the called side.

When the calling side detects the JM signal,
A CJ signal (CM terminator signal) indicating the confirmation and the end of the CM signal is transmitted, and 75 ± 5 m after the transmission of the CJ signal is completed.
After sending the silence of Vs. 8 Execute communication procedure.
When the called side detects the CJ signal, it finishes sending the JM signal, sends a silence of 75 ± 5 ms, and then sends V. 8 Execute communication procedure.

In this way, the V. In the 8 communication, even if the calling side and the called side are connected to one line each having a different communication operation mode such as a facsimile machine, a telephone and a data modem, the CM signal and the JM
By exchanging signals and the like, the communication operation mode between the two is automatically determined to be an appropriate mode. Therefore, V. 8
Communication is a very effective communication procedure in determining a communication operation mode between a calling side and a called side in recent years when various communication terminal devices are used. In addition, this V. Eight communication is full-duplex communication in which signals can be simultaneously transmitted in both directions such that a signal from the other party can be detected during signal transmission.

[0005]

However, in the communication in the normal G3 facsimile apparatus, the V. Unlike the 8 communication, the calling side sends C to the called side after the line is connected.
The NG signal (1100 Hz ringing tone) is transmitted. When the called side detects the CNG signal, it sends a CED signal (called station identification signal) and a DIS signal (digital identification signal) to the calling side. When the calling side detects the DIS signal, it sends a DCS signal (digital command signal) to the called side in response to the DIS signal, and then the G3 communication procedure between the calling side and the called side. Is executed. Note that this facsimile communication is half-duplex communication in which signals are transmitted unidirectionally such that signals are transmitted alternately with the other party.

For this reason, the calling side is V. In the case of a G3 facsimile machine that does not have the 8 communication function, V. Even if the ANSam signal is sent from the called side having the eight communication functions, the calling side cannot detect the ANSam signal, and there is a problem that communication between the two becomes impossible.
In other words, when the calling side is a communication terminal device that does not have the full-duplex communication function, the called side that has the full-duplex communication function sends a predetermined response signal according to the full-duplex communication method. However, the calling side cannot detect the response signal, and communication between the two becomes impossible.

The present invention has been made to solve the above problems, and an object of the present invention is that a calling side does not have a full-duplex communication function when communication is started by a full-duplex communication system. An object of the present invention is to provide a communication method and a communication terminal device that do not cause a problem in the communication operation with the calling side even in the case of the communication terminal device.

[0008]

[0009]

[0010]

In order to achieve the above-mentioned object, in the invention described in claim 1, the V. In the communication method of performing communication according to 8, when the CNG signal from the calling side is detected within a predetermined time after the transmission of the modified response tone signal is started after the line connection,
The digital identification signal is transmitted.

According to the second aspect of the invention, V. In a communication terminal device that performs communication according to 8,
A signal transmitting means for transmitting the modified response tone signal after the line connection and a digital identification signal when a CNG signal from the calling side is detected within a predetermined time after the transmission of the signal is started. And a control means.

According to the third aspect of the invention, V. In the communication method of performing communication according to 8, when the CNG signal from the calling side is detected within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, the digital identification signal is transmitted. , The digital command signal is detected without detecting the calling menu signal.

According to the invention of claim 4, V. In a communication terminal device that performs communication according to 8,
A signal transmitting means for transmitting the modified response tone signal after the line connection, and a digital identification signal if a CNG signal from the calling side is detected within a predetermined time after starting the transmission of the signal. , And control means for detecting the digital command signal without detecting the calling menu signal.

According to the invention of claim 5, V. of the ITU-T recommendation is adopted. In the communication method of performing communication according to 8, when the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, and When the CNG signal is detected, the digital identification signal is transmitted.

According to the invention of claim 6, V. of ITU-T recommendation is adopted. In a communication terminal device that performs communication according to 8,
Signal transmitting means for transmitting the modified response tone signal after the line connection, and when the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the signal is started, and when the calling side signal from the calling side is detected. When a CNG signal is detected, a control means for sending a digital identification signal is provided.

In the invention described in claim 7, V. of ITU-T recommendation is adopted. In the communication method of performing communication according to 8, when the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, and When the CNG signal is detected, the digital identification signal is transmitted, and the digital command signal is detected without detecting the calling menu signal.

According to the invention described in claim 8, V. In a communication terminal device that performs communication according to 8,
Signal transmitting means for transmitting the modified response tone signal after the line connection, and when the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the signal is started, and when the calling side signal from the calling side is detected. When a CNG signal is detected, a control means for transmitting a digital identification signal and detecting a digital command signal without detecting a calling menu signal is provided.

According to the invention described in claim 9, in the communication terminal device according to any one of claims 2, 4, 6, and 8, the signal transmitting means is a modem,
After the line is connected, the control means sets the modem to the bidirectional mode so that it can detect the signal from the calling side while the modem is transmitting the modified response tone signal. When the call menu signal is not detected, the modem is set to the one-way mode to support the facsimile communication procedure.

(Operation) Therefore, according to the inventions of claims 1 to 8, when the calling side has the full-duplex communication function, after the line connection, the modified response tone signal is answered. Then, the calling menu signal is transmitted from the calling side, and the full-duplex communication procedure with the calling side is executed without any trouble on the basis of the detection of the calling menu signal. On the other hand, if the calling side does not have the full-duplex communication function, even if the modified response tone signal is sent after the line connection, the calling side cannot respond to the modified response tone signal. The calling menu signal is not sent from the calling side. However, even in such a case, if the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the modified response tone signal is started, the calling side does not have a full-duplex communication function. The device is determined to be a device, and the digital identification signal is transmitted. Therefore, on the calling side, based on the detection of this digital identification signal,
By transmitting the digital command signal and receiving the digital command signal on the called side, the half-duplex communication procedure is executed between the two without any trouble.

According to the invention described in claim 9, in addition to the effects of the invention described in claims 2, 4, 6, and 8, the modem is set to the bidirectional mode. .
Also, if no calling menu signal is detected, the modem is set to one-way mode.

[0021]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment in which the present invention is embodied in a facsimile machine will be described below with reference to the drawings.

FIG. 1 shows the circuit configuration of the facsimile apparatus of this embodiment. A CPU (Central Processing Unit) 11 includes a ROM (Read Only Memory) 12 that stores programs for controlling the operation of the entire apparatus, and a RAM (Random Access Memory) 13 that temporarily stores various information.
Are connected. In this embodiment, the CPU 11 and the ROM
The control means is constituted by 12 and the RAM 13.

The NCU (Network Control Unit) 14 has a function of controlling the connection with the telephone line and transmitting a dial pulse corresponding to the fax number of the other party and detecting an incoming call. The modem 15 as a signal transmitting means modulates and demodulates transmitted / received data. Further, in the present embodiment, the modem 15 has a function for enabling the G3 communication procedure in the facsimile communication and a V.V. In addition to having a function for enabling the 8 communication procedures, it also has a CNG detection unit 15a for detecting a CNG signal transmitted from the calling side. That is,
The modem 15 according to the present embodiment has a one-way mode for enabling half-duplex communication operation during facsimile communication, and a V.V. It is set to be switched to a bidirectional mode for enabling full-duplex communication operation during 8 communication.

The reading unit 16 reads an image on a document. The recording unit 17 prints on recording paper based on the received image data, the image data read by the reading unit 16, and the like. The operation unit 18 includes various operation keys such as a dial key for inputting a telephone number and the like, a start key for starting a facsimile communication operation, and a setting key 18a described later. The display unit 19 is for displaying various information.

Next, the communication operation performed under the control of the CPU 11 when the facsimile apparatus of this embodiment is the called side will be described with reference to the flow chart shown in FIG. The description will be given with reference to the explanatory diagram of FIG.

Now, as shown in FIG. 2, the CPU 11 is
In step S1, when a calling signal from the telephone exchange based on the calling of the calling side is detected through the NCU 14, the process proceeds to step S2, and the NCU 14 is controlled to connect the line with the calling side. Next, in step S3, the CPU 11 sets the modem 15 in the bidirectional mode to enable the full-duplex communication operation, and in step S4,
Causes the modem 15 to start transmitting the ANSam signal. That is, this ANSam signal is a predetermined response signal according to the full-duplex communication system. Further, the modem 15 is set to the bidirectional mode, so that the signal from the calling side can be detected while the ANSam signal is being transmitted.

Next, the CPU 11 determines whether or not the modem 15 detects the CM signal from the calling side in step S5. That is, this CM signal is a predetermined control signal according to the full-duplex communication system. Where CM
When no signal is detected, the CPU 11 proceeds to step S6 and determines whether or not the CNG detection unit 15a of the modem 15 has detected a CNG signal from the calling side. Here, if the CNG signal is not detected, the CP
The U11 proceeds to step S7 to determine whether or not a predetermined time has elapsed from the start of sending the ANSam signal. If the predetermined time has not elapsed, the U11 returns to step S5 to return the CM signal and the CNG signal. Wait for is detected.

Then, in step S5, when the CM signal is detected within a predetermined time, the CPU 11
The calling party is 8 communication function is determined, the process proceeds to step S8, and the V.8. 8 Communication procedure is executed, and the process ends. That is, as shown in FIG. 3A, the called side sends a JM signal in response to the CM signal from the calling side, and after detecting the CJ signal from the calling side, 75
After a silent period of ± 5 ms, V. 8 Perform a predetermined communication operation according to the communication procedure.

When the CNG signal is detected within the predetermined time in step S6, the CPU 11
The process proceeds to step S9, and the setting key 18a of the operation unit 18
It is determined whether or not is turned on. Here, CPU1
1 is CN when the setting key 18a is turned off.
Ignoring the detection of the G signal, the process proceeds to the step S7, and when it is turned on, the calling side is set to V.5 as shown in FIG. It is determined that the G3 facsimile apparatus is a normal G3 facsimile apparatus having no 8 communication function, and the process proceeds to step S10 described later.

That is, as shown in FIG. V.8 equipped with communication function In the case of eight machines, the calling side may send out a CI signal (call origination display signal) as an option signal to show its own function after the line connection. However, ITU-T Recommendation V. In 8, it is also possible to send out a CNG signal instead of the CI signal. Therefore, even when the CNG signal from the calling side is detected, it cannot be concluded that the calling side is a facsimile machine. Therefore, if the setting key 18a can be arbitrarily set to determine whether or not the calling side is judged to be a facsimile machine when a CNG signal is detected, a wide range of correspondence can be made, and erroneous judgment of the machine can be made. Can also be dealt with easily.

On the other hand, in step S7, the CM signal and the CNG signal are not detected (or CNG is detected).
Even when a predetermined time elapses (in a state where the detection of the signal is ignored), the CPU 11 determines that the calling side is V. It is determined that the G3 facsimile apparatus is a normal G3 facsimile apparatus having no eight communication function, and the process proceeds to step S10. That is, when the calling side is a facsimile machine, the CM signal is not transmitted, and when the calling side is manual transmission, the CNG signal is not transmitted. Therefore, in order to cope with such a case, even if the CNG signal is not detected within a predetermined time, the calling side is set to V. 8 It is determined that the facsimile device does not have the communication function.

Then, in step S10, the CPU 11 sets the modem 15 to the one-way mode in order to shift to the half-duplex communication operation. That is, in the facsimile communication, signals are alternately transmitted and received between the calling side and the called side, and accordingly, the modem 15 is set to the one-way mode. Next, as shown in FIG. 3B, C
In step S11, the PU 11 causes the modem 15 to send out a DIS signal. That is, this DIS signal is a predetermined response signal according to the half-duplex communication method.
The CED signal may be transmitted before the DIS signal is transmitted. After detecting the DCS signal from the calling side by the modem 15, the CPU 11 executes the facsimile communication operation according to the G3 communication procedure in step S12, and ends the processing.

As described above, in this embodiment, the calling side is the V. 8 If you have a communication function, after connecting the line,
In response to the sending of the NSam signal, a CM signal is sent from the calling side. Therefore, based on the detection of the CM signal, V.S. 8 Communication procedures can be executed without any trouble.

On the other hand, the calling side is 8 If the facsimile machine does not have the communication function, connect the line and then
Even if the am signal is sent, the CM signal is not sent from the calling side. However, even in such a case, in this embodiment,
If the CM signal is not detected within a predetermined time from the start of the transmission of the ANSam signal, the calling side determines that the V.S. It is determined that the facsimile device does not have the 8 communication function, and the DIS signal is transmitted. Therefore, the calling side sends a DCS signal based on the detection of the DIS signal, and the called side outputs the DCS signal.
By receiving the S signal, the facsimile communication procedure can be executed between the two without any trouble.

Therefore, in the facsimile apparatus of this embodiment, the calling side is V. Even if the device has the 8 communication function or the device has only the G3 communication function, the communication operation can be performed without any trouble with the calling side. In other words, even if the calling side is a device equipped with a full-duplex communication function or a device equipped with only a half-duplex communication function, there is no problem in communication with the calling side. .

Further, in the present embodiment, even when the CNG signal from the calling side is detected after the transmission of the ANSam signal is started,
It is determined that the calling side is the facsimile machine, and the DIS signal is sent to the calling side. Therefore, the facsimile communication procedure with the calling side can be executed without any trouble, and the calling side can execute the V. Even in the case of a facsimile machine that does not have the 8 communication function, there is no possibility that the communication operation with the calling side will be disturbed.

Further, if the setting key 18a can arbitrarily set whether or not the calling side is judged to be the facsimile machine when the CNG signal is detected, the V. 8
The setting of the device can be easily changed depending on whether or not the calling side, which is a machine, sends out a CNG signal, and a wide range of correspondence can be made, and an erroneous judgment of the device can be easily dealt with. it can.

In addition, in this embodiment, the modem 15
Is set to bidirectional mode after line connection,
After that, when it is determined that the calling side is a facsimile machine, the one-way mode is set. Therefore, the modem 1
No. 5 can reliably detect the CM signal or the like from the calling side even when the ANSam signal is being sent out after the line connection.
After that, when it is determined that the calling side is the facsimile machine, the modem 15 is set to the one-way mode, so that the subsequent facsimile communication procedure can be properly executed.

The present invention may be modified and embodied as follows. (1) Immediately after the line connection, when the CI signal from the calling side is detected, V.I. 8 Configure to shift to communication procedure.

(2) The DIS signal is transmitted only when the CM signal is not detected within a predetermined time after the transmission of the ANSam signal is started without detecting the CNG signal.

(3) The present invention is applied to the case of performing various data communications such as personal computer communications.

[0042]

As described in detail above, the present invention has the following excellent effects. According to the inventions of claims 1 to 8, V. When communication is started according to the full-duplex communication method according to No. 8, even if the calling side is not equipped with the full-duplex communication function, for example, a communication terminal device such as a facsimile device, a communication operation with the calling side is performed. There is no risk of problems.

More specifically, the calling side is V. 8 If the communication function is provided, after the line connection, the calling menu signal is sent from the calling side in response to the sending of the modified response tone signal. Therefore, based on the detection of the calling menu signal, , V. from the calling party. 8 Communication procedures are executed without any problems. On the other hand, the calling party is In the case of a facsimile machine which does not have the 8 communication function, even if the modified response tone signal is transmitted after the line connection, the calling menu signal is not transmitted from the calling side. However, even in such a case, if the calling menu signal is not detected within a predetermined time from the start of the transmission of the modified response tone signal, the calling side does not receive the V. 8 It is determined that the facsimile device does not have the 8 communication function, and the digital identification signal is transmitted. As a result, the calling side transmits the digital command signal based on the detection of the digital identification signal, and the called side receives the digital command signal, so that the facsimile communication procedure can be executed between them without any trouble.

According to the invention of claim 9, in addition to the effects of the inventions of claim 2, claim 4, claim 6, and claim 8, since the modem is set to the bidirectional mode, Even when the modified response tone signal is being sent, the calling menu signal from the calling side can be reliably detected. Further, even when the calling menu signal is not detected, the modem is set to the one-way mode, so that the subsequent facsimile communication procedure can be properly executed.

[Brief description of drawings]

FIG. 1 is a block circuit diagram of a facsimile apparatus according to an embodiment of the present invention.

FIG. 2 is a flowchart showing a communication operation of a facsimile device.

FIG. 3 (a) shows that the calling side is V. Explanatory drawing which shows the communication operation in the case of eight machines, (b) is explanatory drawing which shows the communication operation when the calling side is G3 machine.

[Explanation of symbols]

11 ... CPU constituting control means, 12 ... ROM constituting control means, 13 ... RAM constituting control means, 15
... modem as signal transmission means, 15a ... CNG detection section, 18 ... setting key.

Claims (9)

(57) [Claims] 1. V. of ITU-T recommendation. In the communication method of performing communication according to No. 8, within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, C from the calling side is transmitted.
A communication method of transmitting a digital identification signal when an NG signal is detected. 2. V. of ITU-T Recommendation. In a communication terminal device that performs communication according to No. 8, a signal sending means for sending a modified response tone signal after line connection and a CNG signal from a calling side is detected within a predetermined time after starting the sending of the signal. In the case, a communication terminal device provided with a control means for transmitting a digital identification signal. 3. V. of ITU-T Recommendation. In the communication method of performing communication according to No. 8, within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, C from the calling side is transmitted.
A communication method in which a digital identification signal is transmitted when an NG signal is detected, and a digital command signal is detected without detecting a calling menu signal. 4. V. of ITU-T Recommendation. In a communication terminal device that performs communication according to No. 8, a signal sending means for sending a modified response tone signal after line connection and a CNG signal from a calling side is detected within a predetermined time after starting the sending of the signal. In this case, the communication terminal device is provided with a control means for transmitting the digital identification signal and detecting the digital command signal without detecting the calling menu signal. 5. V. of ITU-T Recommendation. In the communication method of performing communication according to 8, when the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, and A communication method for transmitting a digital identification signal when a CNG signal is detected. 6. The ITU-T Recommendation V.5. In a communication terminal device that performs communication according to No. 8, a signal sending means for sending a modified response tone signal after line connection and a calling menu signal from a calling side is detected within a predetermined time after starting the sending of the signal. If not, and if a CNG signal from the calling side is detected, a communication terminal device provided with a control means for transmitting a digital identification signal. 7. The ITU-T Recommendation V.5. In the communication method of performing communication according to 8, when the calling menu signal from the calling side is not detected within a predetermined time after the transmission of the modified response tone signal is started after the line is connected, and A communication method in which, when a CNG signal is detected, a digital identification signal is transmitted, and a digital command signal is detected without detecting a calling menu signal. 8. V. of ITU-T Recommendation. In a communication terminal device that performs communication according to No. 8, a signal sending means for sending a modified response tone signal after line connection and a calling menu signal from a calling side is detected within a predetermined time after starting the sending of the signal. If not, and if a CNG signal from the calling side is detected, communication is provided with control means for transmitting a digital identification signal and detecting a digital command signal without detecting a calling menu signal. Terminal device. 9. The communication terminal device according to any one of claims 2, 4, 6, and 8, wherein the signal transmission means is a modem, and the control means is, after line connection, The modem was set to bi-directional mode so that the caller could detect the signal while sending the modified answer tone signal, and the calling menu signal was not detected. In this case, the communication terminal device sets the modem to the one-way mode so as to correspond to the facsimile communication procedure.