JPH02143763A - Communication line wait state monitor method - Google Patents

Abstract

PURPOSE:To easily and surely monitor the operating state at the sender and the receiver side during line standby state without installing a special monitor system by applying the reception processing of a line standby consecutive command at the receiver side and the reception processing of a reception command at the sender side. CONSTITUTION:When the line standby state is taken, a line standby instruction command Cw is sent at first from a transmission system 1 and it is received by a reception system 2. Then a line standby consecutive command Cc is sent form the transmission system 1 and it is received by the reception system 2 and a reception command Cg is sent from the reception system 2 accordingly and it is received by the transmission system 1. Since the receiver side applies the reception processing of the line standby consecutive command Cc and the sender side applies the reception processing of the reception command Cg in this way, the operating state of the sender side and the receiver side during the line standby state is easily and surely monitored.

Description

[Detailed description of the invention] The present invention will be explained in the following order.

Industrial Application Field Overview of the Invention Conventional Technology Problems to be Solved by the Invention Means for Solving the Problems Working Example G-1 Configuration of data transmission device (Fig. 1) G-2 Operation in data transmission device ( (Figures 1 to 4) Operation of G-3 transmission control unit (Figure 5) Operation of G-4 reception control unit (Figure 6) The present invention relates to a communication line standby state monitoring method for monitoring the operating states of a transmitting side and a receiving side in a line standby state taken when transmitting through a communication line.

By doing this, it is possible to easily and reliably monitor the operating states of the transmitting side and the receiving side during the line standby state without requiring a special monitoring system.

B. Summary of the Invention The present invention provides a communication line standby state monitoring method for monitoring the operating states of a transmitting side and a receiving side during a line standby state taken when transmitting data from a transmitting side to a receiving side via a communication line. The transmitting side repeatedly transmits a line standby continuation command at predetermined time intervals, and the receiving side transmits a receiving command in response to receiving the line standby continuation command.
If a received command is not received for a predetermined period of time while the line is in standby mode, the receiving side recognizes that a malfunction has occurred on the receiving side, and when the line is in standby mode, the receiving side When a continuation command is not received for a predetermined period of time or more, it is recognized that a malfunction has occurred on the sending side.C Conventional technology Data such as voice information or image information is sent from the sending side to a public telephone line, etc. When transmitting to a receiving side through a communication line, for example, due to circumstances on the sending side, although the sending side and the receiving side are connected through the communication line, communication is not carried out for a relatively long period of time. The line is often placed in a standby state. Conventionally, in such a line standby state, the transmitting side and the receiving side are simply interconnected via a communication line.

D Problems to be Solved by the Invention As mentioned above, in the line standby state that is taken when data is transmitted through a communication line such as a public telephone line in a conventional normal communication system, the sending side and the receiving side simply use the communication line. Because they are only connected to each other via Unable to be detected by the sender. Therefore, in a communication system, if a malfunction occurs on the sending or receiving side,
It is desirable to quickly disconnect the communication line, stop the system, and then restore the system after resolving the malfunction on the sending or receiving side, but it may be difficult to take such measures quickly. has been done.

Therefore, it may be possible to make it possible for the transmitting side to monitor the operating status of the receiving side, and for the receiving side to monitor the operating status of the transmitting side, based on busy tones on the communication line, while the line is on standby. However, in such a case, it would be necessary to provide a special monitoring system that includes a busy tone detector.

In view of the above, the present invention provides a method for monitoring data on the transmitting side and the receiving side without requiring the installation of a special monitoring system during the line standby state that is taken when data is transmitted from the transmitting side to the receiving side via a communication line. It is an object of the present invention to provide a communication line standby state monitoring method that enables easy and reliable monitoring of the operating state of a communication line.

E. Means for Solving the Problems In order to achieve the above-mentioned object, the communication line standby state monitoring method according to the present invention provides the following steps: The transmitting side repeatedly transmits a line standby continuation command to the receiving side at predetermined time intervals, and the receiving side transmits a receiving command to the transmitting side in response to receiving the line standby continuation command. When the transmitting side continues to receive no received commands for a predetermined period of time while the line is in standby mode, the receiving side recognizes that a malfunction has occurred on the receiving side, and
If the line standby continuation command is not received for a predetermined period of time while the line is on standby, it is recognized that a malfunction has occurred on the sending side, and the operating status of the sending and receiving sides shall be monitored. be done.

F Effect According to the communication line standby state monitoring method according to the present invention, during the line standby state, a line standby continuation command, which is equivalent to data to be transmitted through the communication line, is sent from the transmitting side to the receiving side intermittently. In addition, the receiving side sends a receive command in response to receiving a line standby continuation command from the receiving side to the sending side, so that the receiving side processes the reception of the line standby continuation command and the transmitting side receives the line standby continuation command. By simply performing command reception processing, it is possible to easily and reliably monitor the operating states of the transmitter and receiver during the line standby state.

G Example G-1 Configuration of data transmission device (Fig. 1) The first time is data transmission used for data transmission in which an example of the communication line standby state monitoring method according to the present invention is implemented. Show the device.

In the data transmission device shown in FIG.
However, the transmission control unit 11. The transmission control unit 11 is composed of a memory 12 storing data to be transmitted, an abnormality display unit 13 and a modem 14 connected to the transmission control unit 11, and the transmission control unit 11 has a transmission side command control block Ila and a data transmission control block. It is said to have a built-in llb. Further, the reception system 2 includes a reception control unit 15. A memory 16 in which transmitted data is stored and an abnormality display unit 17 connected to the reception control unit 15
and a modem 18, and a reception control unit 15
The receiver includes a receiving side command control block 15a and a data receiving control block 15b. The transmitting system 1 and the receiving system 2 are connected through a communication circuit vA3.

G-2 Operation in the data transmission device (Figs. 1 to 4) A series of data to which such a data transmission device is used and an example of the communication line standby state monitoring method according to the present invention is applied. When a transmission operation is performed, data D to be transmitted is fetched from the memory I2 into the data transmission control block 11b built in the transmission control unit 11 in the transmission system 1 during a data transmission period. The data transmission control block llb then sends the data D to the modem 14 by performing predetermined processing such as adding an error correction code to the transmission data D'.

The modem 14 performs modulation processing according to the transmission data D' supplied from the data transmission control block Ilb, obtains a modulated data signal SD', and sends it to the communication line 3. The modulated data signal SD' sent to the communication line 3 is
It is transmitted to the receiving system 2 via the communication line 3.

In the receiving system 2, the modulated data signal SD' transmitted from the transmitting system 1 through the communication line 3 is transmitted to the modem 18. The modem 18 demodulates the modulated data signal SD' to obtain transmission data D'', which is transmitted to the reception control unit 1-1.
The data reception control block 15b performs predetermined processing such as error correction on the transmission data D° from the modem 18 to obtain data D, and stores it in the memory I6. Store.

In this way, data D is transmitted from the transmitting system 1 to the receiving system 2 via the communication line 3.

Then, when the line is placed in standby mode, first, according to an example of the communication line standby status monitoring method according to the present invention, the transmission side command system built in the transmission control unit 11 in the transmission system 1 is checked. The III block 11a is assumed to be in a monitoring operation state, and a line standby command Cw is sent to the modem 14 from the sending side command control block lla. The modem 14 performs a modulation process according to the line standby command Cw to obtain a modulated line standby command signal SCw, and sends it to the communication line 3. The modulated line standby command signal SCw sent to the communication line 3 is transmitted to the receiving system 2 via the communication line 3.

In the receiving system 2, the modulated line standby command signal SCw transmitted from the transmitting system 1 through the communication line 3 is transmitted to the modem 18.
transmitted to. The modem 18 receives a modulated line standby command signal S.
Cw is demodulated to obtain a line standby instruction command Cw, which is supplied to the receiving side command control block 15a. The receiving side command control block 15a to which the line standby instruction command Cw is supplied assumes a monitoring operation state.

Thereafter, a line standby continuation command Cc is sent from the transmitting side command control block lla to the modem 14, and the modem 14 performs modulation processing according to the line standby continuation command CC to obtain a modulated line standby continuation signal SCc. Send to communication line 3. The modulated line standby continuation signal SCC sent to the communication line 3 is transmitted to the receiving system 2 via the communication line 3.

In the receiving system 2, the modulated line standby continuation signal SCc transmitted from the transmitting system 1 through the communication line 3 is transmitted to the modem 18.
The modem 18 receives a modulated line standby continuation signal SC.
C is demodulated to obtain a line standby continuation command Cc, which is supplied to the receiving side command control block 15a. Then, the receiving side command control block 15a sends the receiving command Cg to the modem 18 in response to the supply of the line standby continuation command Cc from the modem 18.

The modem 18 to which the reception command Cg has been supplied performs modulation processing according to the reception command Cg to generate a modulated reception signal SCg.
is obtained and sent to the communication line 3. The modulated reception signal SCg sent to the communication line 3 is transmitted to the transmission system 1 via the communication line 3.

In the transmission system 1, the modulated reception signal SCg transmitted from the reception system 2 through the communication line 3 is transmitted to the modem 14. The modem 14 demodulates the modulated received signal SCg to obtain a received command Cg, and supplies it to the transmitting side command control block lla.

The transmitting side command control block lla to which the received command Cg has been supplied then receives the previous line standby continuation command Cc.
When a predetermined period of time, for example, 5 seconds has elapsed since the sending of the line to the modem 14, the next line standby continuation command Cc is sent to the modem 14, and the sending system 1 and the receiving system 2 operate normally from then on. The above operation is then repeated.

After that, when the line standby state is released, a line standby release command C is sent from the sending side command control block lla.
e is sent to the modem 14, the sending side command control block lla is released from the monitoring operation state, the modem 14 performs modulation processing according to the line standby release command Ce, obtains a modulated line standby release signal SCe, and sends it to the modem 14. is sent to the communication line 3. The modulated line standby release signal SCe sent to the communication line 3 is transmitted to the receiving system 2 via the communication line 3.

In the receiving system 2, the modulated line standby release signal SCe transmitted from the transmitting system 1 through the communication line 3 is transmitted to the modem 18.
The modem 18 receives a modulated line standby release signal SC.
e is demodulated to obtain a line standby release command Ce, which is supplied to the receiving side command control block 15a. Then, the receiving side command control block 15a is released from the monitoring operation state in response to the line standby release command Ce from the modem 18.

As shown in FIG. 2, when the line standby state is set, if the transmitting system 1 and the receiving system 2 do not malfunction, the line standby command Cw is first sent from the transmitting system 1. and is received by the receiving system 2. Subsequently, a line standby continuation command Cc is transmitted from the transmitting system 1, which is received by the receiving system 2, and in response, a receiving command Cg is transmitted from the receiving system 2, which is received by the transmitting system l. .

Thereafter, when 5 seconds have elapsed since the transmission of the line standby continuation command Cc, the next line standby continuation command Cc is transmitted from the transmitting system 1, which is received by the receiving system 2. A reception command Cg is transmitted from the transmission system 1, and is received by the transmission system l. Thereafter, the operation of sending a new line standby continuation command Cc from the transmission system 1 is repeated every five seconds after the transmission of the line standby continuation command Cc.

When the line standby state is released, the transmission system 1 transmits a line standby release command Ce, the monitoring state of the transmission system 1 is released, and the line standby release command C
e is received by the receiving system 2, and the monitoring state of the receiving system 2 is released.

In addition, if the transmission system 1 malfunctions during the line standby state, after the malfunction of the transmission system 1 occurs, the transmission side command control block 11a built in the transmission control unit 11 in the transmission system 1 Transmission of the line standby continuation command Cc is stopped. Along with this, a line standby continuation command C is sent to the receiving side command control block 15a built in the receiving control unit 15 in the receiving system 2.
The supply of C is stopped. In this way, the receiving side command control block 15a determines that the line standby continuation command Cc is not supplied for a predetermined period or longer, for example, 30 minutes.
If it continues for more than a second, an abnormality determination is made to determine that a malfunction has occurred in the transmission system 1, an abnormality determination signal sb is sent to the abnormality display section 17, and a display indicating the abnormality of the transmission system 1 is displayed on the abnormality display section 17. Let it happen.

Therefore, in such a case, as shown in FIG. 3, during the line standby state, the transmitting system 1 transmits a line standby continuation command Cc, which is received by the receiving system 2.
In response to the reception, a reception command Cg is transmitted from the reception system 2, and after it is received by the transmission system 1, if the transmission system 1 malfunctions, the reception system 2
When 30 seconds or more have elapsed since receiving the line standby continuation command Cc immediately before the malfunction occurred, for example,
An abnormality determination is made when 30 seconds have elapsed since the transmission of the reception command Cg immediately before the transmission system 1 malfunctioned.

Furthermore, if the receiving system 2 malfunctions during the line standby state, after the malfunction occurs in the receiving system 2, the receiving side command control block 15a built in the receiving control unit 15 in the receiving system 2 Reception command Cg
transmission is stopped.

Accordingly, the transmission control unit 11 in the transmission system 1
The supply of the receiving command Cg to the transmitting side command control block 11a built in is stopped. In this case, the transmitting side command control block lla detects an abnormality that determines that a malfunction has occurred in the receiving system 2 when the receiving command Cg is not supplied for a predetermined period of time or more, for example, 30 seconds or more. The judgment is made, the abnormality judgment signal Sa is sent to the abnormality display section 13, and the reception system 2 is sent to the abnormality display section 13.
A display indicating an abnormality is displayed.

Therefore, in such a case, as shown in FIG. 4, during the line standby state, the transmitting system 1 transmits a line standby continuation command Cc, which is received by the receiving system 2.
In response to the reception, a reception command Cg is transmitted from the reception system 2, and after it is received by the transmission system 1, if the reception system 2 malfunctions, the transmission system 1
The line standby continuation command Cc is sent every 5 seconds until 30 seconds have elapsed since the reception of the reception command Cg immediately before the reception system 2 malfunctioned, and the line standby continuation command Cc is sent from the reception of the reception command Cg immediately before the reception system 2 malfunctioned. When 30 seconds or more have elapsed, for example, when 30 seconds have elapsed since the line standby continuation command Cc was sent immediately after the receiving system 2 malfunctioned, an abnormality determination is made.

G-3 Operation of the transmission control unit (FIG. 5) The transmission control unit 11 in the transmission system 1 described above is configured using, for example, a microcomputer, and the microcomputer is placed in a line standby state. An example of the control program executed at this time is as shown in the flowchart shown in FIG.

In the control operation of the transmission control unit 11 during the line standby state according to the flowchart shown in FIG.
, reset the built-in timer.

Next, in decision 23, it is determined whether the line standby state has been released, and if it has not been released,
In process 24, a line standby continuation command Cc is sent to modem 14. Thereafter, in decision 25, it is determined whether or not the received command Cg has been received, and if it has been received, in decision 26, it is determined that 5 seconds have elapsed since the sending of the last line standby continuation command Cc before that point. Determine whether or not. the result,
If 5 seconds have not elapsed, the determination in decision 26 is repeated, and when 5 seconds have elapsed, the process returns to process 22.

Furthermore, if the result of judgment in decision 25 is that the reception command Cg has not been received, decision 2
At step 7, it is determined whether 30 seconds have elapsed since the last line standby continuation command Cc was sent before that point. As a result, if 30 seconds have not elapsed, in decision 28, it is determined whether 5 seconds have elapsed since the last line standby continuation command Cc was sent before that point, and the 5 seconds have elapsed. If not, the judgment in decision 28 is repeated, and when 5 seconds have elapsed, the process returns to decision 23.

On the other hand, as a result of the judgment in decision 27, if 30 seconds have elapsed since the sending of the last line standby continuation command Cc before that point, in process 29, an abnormality determination signal Sa is sent to the abnormality display section 13. , exit the program.

Furthermore, if the line standby state is canceled as a result of the judgment in decision 23, in process 30,
A line standby cancellation command Ce is sent to the modem 14, the monitoring state is canceled, and the program is terminated.

Operation of the G-4 reception control unit (Fig. 6) Furthermore, the reception control unit 15 in the reception system 2 described above is also configured using, for example, a microcomputer. An example of a control program to be executed when the program is executed is as shown in the flowchart shown in FIG.

In the control operation of the reception control unit 15 during the line standby state according to the flowchart shown in FIG. If not, the judgment in decision 31 is repeated, and when it is received, the built-in timer is reset in process 32.

Next, in decision 33, it is determined whether the line standby continuation command Cc or the line standby cancellation command Ce has been received, and if so, in decision 34, it is determined whether the line standby continuation command Cc or the line standby cancellation command Ce is received. Decide whether or not. As a result of the judgment in decision 34, if the received command is the line standby continuation command Cc, in process 35, the received command Cg is sent to the modem 18, and then the process returns to process 32.

On the other hand, as a result of the determination in decision 33, if the line standby continuation command Cc or the line standby cancellation command Ce has not been received, in decision 36, 30 seconds have elapsed since the sending of the last received command Cg before that point. decide whether or not. As a result, if 30 seconds have not elapsed, Decision 3
3 and when 30 seconds have passed, process 37
At this point, the abnormality determination signal sb is sent to the abnormality display section 17, and the program is terminated.

Furthermore, as a result of the judgment in decision 34, if the received command is not the line standby continuation command Cc,
Since what was received is the line standby release command Ce, the program is terminated after the monitoring state is released on the third day of the process.

Effects of the Invention H As is clear from the above explanation, according to the communication line standby state monitoring method according to the present invention, during the line standby state taken when data is transmitted from the sender side to the receiver side via the communication line, A line standby continuation command, which is equivalent to data to be transmitted through a communication line, is intermittently and repeatedly sent from the receiving side to the receiving side, and the line standby continuation command is received from the receiving side to the transmitting side in response to reception of the line standby continuation command. Once the command is sent, the receiving side can receive the line standby continuation command and the transmitting side can receive the received command. Conditions can be easily and reliably monitored without requiring the installation of special monitoring systems.

13 and 17 are error display parts, 14 and 18 are modems, 1
5 is a reception control unit.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing a data transmission device used to implement an example of the communication line standby state monitoring method according to the present invention, and FIGS. 2, 3, and 4 are data transmission devices shown in FIG. 1. FIG. 5 is a diagram used to explain the operation of an apparatus according to an example of the communication line standby state monitoring method according to the present invention, and FIG. 5 is a diagram used to explain the transmission control unit used in the transmission system in the example shown in FIG. FIG. 6 is a flowchart used to explain the reception control unit used in the reception system in the example shown in FIG. In the figure, 1 is a transmission system, 2 is a reception system, 3 is a communication line, 11 is a transmission control unit, 12 and 16 are memories,
Ennit flow chart Figure 6

Claims (1)

[Claims] When transmitting data from the transmitting side to the receiving side via a communication line and entering a line standby state, the transmitting side repeatedly sends a line standby continuation command to the receiving side at predetermined time intervals, and the receiving side In response to reception of the line standby continuation command, a receive command is sent to the sending side, and when the sending side continues to be in a line standby state, the receiving command is not received for a predetermined period or more. When the receiving side recognizes that a malfunction has occurred, and the receiving side continues to not receive the line standby continuation command for a predetermined period of time while the line is on standby, the sending side A communication line standby state monitoring method characterized in that, in order to recognize that a malfunction has occurred, the operating states of the transmitting side and the receiving side are monitored.