JPS639707B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a relay control device diagnosis method for diagnosing each relay control device from a network control device in a data communication network.

For example, the conventional relay control device diagnosis method is as follows:
When an inquiry message signal is sent from the network control device to the relevant relay control device, the maintenance staff or the like manually performs a call-back test using the modem on the line in service, or performs a call-back test to the neighboring station. The main purpose of this system was to diagnose the line by transmitting a re-interview message signal and waiting for the response before making a decision.

For this reason, when a line failure occurs, it is not possible to distinguish whether the failure is a failure in the line system including the modem or a failure in the communication line control unit in the relay control equipment, and this point remains unclear. They had no choice but to report it to the network control equipment as simply a fault in the line system.

Furthermore, in order to perform detailed troubleshooting, a maintenance worker or the like must manually disconnect the faulty system from the online service and connect the common circuit of the communication line control unit.
Since each line-compatible circuit had to be tested and confirmed to identify the faulty part, it took a lot of time and resulted in the interruption of online operations.

An object of the present invention is to eliminate the drawbacks of the above-mentioned prior art, to enable a relay control device to perform self-diagnosis under the control of a network control device, to avoid interruption of online services, and to shorten the diagnosis time. An object of the present invention is to provide a control device diagnostic method.

The feature of the present invention is that the network control device periodically issues an inquiry message signal to each relay control device,
Upon receiving this, the relay control device, while the online service is running, checks the test data related to the above-mentioned medical inquiry message signal from the transmitting section to the receiving section using the pre-installed loop-back circuit in its line control section. The relay control device diagnosis method is such that the normality or abnormality of the relay control device is determined, and the result is sent back to the network control device as a response message signal.

Note that if the loopback circuit described above is provided in advance to simulate an actual line connection, when an abnormality is determined as a result of the loopback check, the common circuit of the communication line control unit related to the line control section will be detected as having an abnormality. It is assumed that there is a failure, and a response message signal to that effect is sent back, thereby making it possible to clarify the location of the failure.

Embodiments of the present invention will be described below with reference to the drawings.

The figure is a block diagram of the main parts of an embodiment of the relay control device diagnosis method according to the present invention.

Here, 1 is a network control device (NCS), 2 is a relay line for the network control device 1, 3 and 4 are modems (M) at both ends of the relay line 4, 5 is a terminal line, and 6 is a terminal (T), 7 is a relay control device (NP), 71 is a line common control unit (LC) related to the line control unit, 72 is a communication line control unit receiving unit (RLCU 1 to 4), and 73 is, The communication line control unit transmitting unit (SLCU1-4), 74 is the same return circuit (RL1-4), and 75 is the relay control device 7.
The central control unit (CC) 76 is the same main memory unit (MM).

Each communication line control unit receiving section 72 (RLCU1
~4) The transmitting units 73 (SLCU1 to SLCU4) can each accommodate up to eight receiving and transmitting lines of relay lines or terminal lines, but in this figure,
Communication line control unit receiving section 72, same transmitting section 73
The illustration shows accommodation of a trunk line 2 and a terminal line 5 to one each (RLCU1, SLCU1), and the others are omitted.

Furthermore, depending on the configuration of the data communication network, the relay line 2 may be connected directly to the network control device, or may be connected to the network control device via one or more other relay control devices; , there is essentially no difference.

Normally, as is well known, the line common control unit 71,
Under the control of the central control unit 75 and the main storage unit 76, communication to the network control device 1 or other relay control device through the relay line 2, or to the terminal 6 etc. through the terminal line 5 is controlled by the communication line control unit receiving unit 72, the same This is done via the transmitter 73.

Next, the diagnostic operation will be explained.

The network control device 1 periodically sends an inquiry message signal to each relay control device under its jurisdiction through a relay line.

This inquiry message signal is sent to the bucket header for network management and management using the information field, for example, by high-level transmission control means (HDLC).
It includes control information and displays that it is related to an interview.

In this embodiment, it is assumed that the relay control device 7 receives the inquiry message signal via the relay line 2 at one of the communication line control unit receiving units 72 (for example, its RLCU 1).

The communication line control unit receiving section 72 notifies the line common control section 71 of this received signal information.

The line common control unit 71 checks the pattern of the inquiry message signal information, detects that an inquiry message signal has been received, and reports this to the central control unit 75.

From then on, based on this medical inquiry message signal information,
Self-diagnosis is performed within the relay control device 7.

First, this information is stored in the main storage section 76 from the line common control section 71 using the direct memory access (DMA) method based on the address designation of the central control section 75.

Next, the line common control section 71 controls the central control section 75.
Based on the command, the data relating to the medical inquiry message information is retrieved from the main storage section 76 using a direct memory access method and sent to each communication line control unit transmitting section 73 (SLCU1 to SLCU4).

As a result, each communication line control unit transmitter 7
3 (SLCU1-4) respectively send the above data to each communication line control unit receiving section 72 (RLCU1-4) via the corresponding return circuit 74 (RL1-4).

At this time, each communication line control unit transmitter 73,
Regarding this data, the receiving unit 72, for example,
A check is performed using a cyclic check (CRC) or the like, and the results are held and stored (for example, by a cyclic check matcher circuit), and are reported to the line common control section 71 via each common circuit.

The line common control unit 71 compares the report data with the above-mentioned retained/stored data, and checks the normality of each communication line control unit receiving unit 72 and transmitting unit 73.
Abnormalities can be detected and confirmed (determined).

In this case, if an abnormality is detected, it can be assumed that there is an abnormality in the common circuit of each communication line control unit receiving section 72 or transmitting section 73, so it may be determined that there is an abnormality. .

After all, each folding circuit 74 (RL1 to RL4) is
This is because, in the relay control device 7, it is connected to the same position as the relay line or terminal line, and the connection of these lines is simulated, and failure thereof is impossible.

In this way, when the line common control unit 71 detects and confirms (determines) normality and abnormality, the results are reported to the central control unit 75 as a reception status.

The central control unit 75, by software control,
This is returned as a response message signal via the relay line 2 to the network control device 1 that issued the inquiry.

In this way, a self-diagnosis of the line control unit, in particular its common circuit, is possible even during online service, and the results can be grasped remotely by the network control device 1.

As described in detail above, according to the present invention, it is possible to diagnose the relay control device even during online service, and there is no need for manual work by maintenance personnel, etc., so the diagnosis time can be shortened or Since secondary failures can be prevented, a remarkable effect can be obtained in improving the serviceability and reliability of the data communication network.

[Brief explanation of the drawing]

The figure is a block diagram of the main parts of an embodiment of the relay control device according to the present invention. DESCRIPTION OF SYMBOLS 1... Network control device, 2... Relay line, 3, 4... Modem, 5... Terminal line, 6... Terminal, 7... Relay control device, 71... Line common control unit, 72... Communication line control unit receiving unit, 73... Communication line control unit transmitting section, 74... Return circuit, 75... Central control section, 76
...Main memory.

Claims (1)

[Claims] 1. In a relay control device diagnosis method for a data communication network, a network control device periodically issues an inquiry message signal to each relay control device, and the relay control device that receives the message starts online service operation. as it is,
At least one return circuit provided in advance performs a return check on the test data related to the medical inquiry message signal from the transmitter to the receiver of the return circuit, and determines whether the check result is normal or abnormal. A relay control device diagnostic method characterized in that the determination result is sent back to the network control device as a response message signal. 2 In the method described in claim 1,
When abnormality is determined as a result of the return check, a relay control diagnostic method is configured to send back a response message signal indicating that there is an abnormality in a common circuit related to communication line control within the relay control device.