JPS6313542A - Diagnosing system for terminal equipment - Google Patents

Abstract

PURPOSE:To diagnose a terminal equipment while keeping the efficiency for routine jobs by allowing a management center to supervise a frame address part circulated in a loop so as to estimate a traffic of each terminal equipment and giving a diagnostic command to a terminal equipment with the least traffic. CONSTITUTION:Since a pair of s command frame and a response frame of terminal equipments 1-3 are circulated in a loop communication network 6, the traffic of each terminal equipment is estimated almost accurately by supervising the address of the frame in the loop. A diagnosis command is given from the management center 4 to a terminal equipment 1(or 2, or 3) with small traffic, that is, having a margin and the terminal equipment diagnoses it. Then the result of diagnosis is sent to the management center 4, the diagnosing result received by the management center 4 is stored in an auxiliary storage device 5 and the stored diagnosis result is checked periodically. Thus, the fast troubleshooting of the fault is realized while keeping the efficiency for routine jobs.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a diagnostic method for terminal devices, and particularly to a diagnostic method suitable for early detection of failures in terminal devices connected to a loop-shaped communication network.

[Conventional technology]

Conventionally, as a diagnosis method for a terminal device connected to a center through a communication line, there is 1, for example, Japanese Patent Application Laid-Open No. 58-56021.
As described in the above publication, when a failure occurs in a terminal device, a center issues a diagnostic instruction to the terminal device, and the terminal device executes a diagnostic program according to the instruction. No consideration was given to preventive diagnosis for early detection of disabilities.

[Problem that the invention seeks to solve]

In the future, it is expected that the number of terminal devices such as PCs and leak stations connected to loop communication networks will increase dramatically due to the spread of LAN, etc., but the number of failures will increase in proportion to the number of devices, so failures can be detected early. It is important to discover it while it is still minor. However, the above-mentioned conventional technology does not consider preventive diagnosis to prevent failures in terminal devices, and when a diagnosis is performed on a terminal device where a failure has occurred, there is a problem that the terminal device cannot process normal business operations. there were.

An object of the present invention is to diagnose terminal devices during normal business processing without reducing the efficiency of normal business in a data communication system in which one management center and multiple terminal devices are connected in a loop. The goal is to detect problems early, even when they are minor, and to prevent serious problems from occurring.

[Means for solving problems]

``Objective 1 is achieved by the management center monitoring the address part of frames flowing within the loop, estimating the traffic of each terminal device, and issuing a diagnostic instruction to the terminal device with the least traffic.

[For production]

In a loop-shaped communication network, the command frame and response frame set of the terminal device goes around the loop, so by monitoring the address part (terminal address) of the frame flowing within the loop, it is possible to accurately determine the traffic of each terminal device. can be estimated. If the diagnosis is performed on a terminal device with low traffic, that is, with sufficient capacity, the terminal device can be diagnosed without reducing the efficiency of normal operations.

Note that the address part of the frame flowing in the loop is monitored by counting how many addresses corresponding to each terminal device have passed within a unit time. It is considered that the traffic of each terminal device is roughly proportional to the number of addresses counted.

〔Example〕

Hereinafter, one embodiment of the present invention will be described in detail using the drawings.

FIG. 1 shows the overall configuration of an embodiment of the present invention, in which terminal devices 1, 2.3 and a management center 4 are connected to a loop communication network 6. As shown in FIG. 5 is an auxiliary storage device for storing diagnosis results. The management center 4 uses r as the address in the loop.
I have O.J.

Also, the terminal device 1. ．． Assume that 2.3 has addresses "1", "2", and "3" in the loop, respectively. For example, when terminal device 1 performs data communication with terminal device 2, terminal device 1 transmits a command frame (CMD), and in response, terminal device 2 transmits a response frame (R8
P) is sent.

These frames circulate around the loop communication network 6. The management center 4 monitors the address part of frames flowing through the loop communication network 6.

Figure 2 shows a frame 3 of data flowing through the loop communication network 6, in which 7 is the source address (SA), 8 is the destination address (DA), 9 is control information (C), and 10 is the data content. (I) is shown.

FIG. 3 shows an example of the configuration of the management center 4.

In FIG. 3, reference numeral 11 denotes a traffic monitoring section, which has a function of monitoring the amount of traffic of the terminal devices 1, 2 and 3 connected to the loop communication network 6. 13 is a control section of the auxiliary storage device 5; A central control unit 12 controls the traffic monitoring unit 11 and the auxiliary storage control unit 13. The central control unit 12 also controls data transmission and reception with the loop communication network 6, and further has a timer function. The central control unit 12 has its own storage device and operates under program control.

FIG. 4 shows the configuration of the traffic monitoring section 11.

The traffic monitoring unit 11 includes an address determination unit 15 that analyzes SA and DA of frames flowing through the loop communication network, and a counter i6 that exists corresponding to each of the terminal devices 1 and 2.3 connected to the loop communication network 6. -1 to 16-3.

FIG. 5 shows the terminal device 1. ．． A configuration example of 2.3 is shown.

The terminal device mainly consists of a control section 21 and a user operations section 22.24.
and a diagnostic section 23.

The control section 21 controls the transmission and reception of data with the loop communication network 6, and also controls the operations of the user business sections 22, 24 and the diagnosis section 23. The user business section 22 is a section that receives diagnosis instructions via the control section 21, starts up the diagnosis section 23, and transmits the obtained diagnosis results to the management center 4 via the control section 21. The diagnostic section 23 is activated by the user business section 22 and starts operating, and is a section that performs diagnosis of a floppy disk attached to a terminal device, a fixed disk, a display device, and the like. The user operations section 24 is a section that performs other user operations, and can operate in parallel with the user operations section 22 and the diagnosis section 23.

Next, the diagnostic operation in the embodiment shown in FIG. 1 will be explained. In the diagnosis method of the present invention, a management center 4 issues a diagnostic instruction to a terminal device 1, 2, or 3 with small traffic, performs a diagnosis on the terminal device, and transmits the diagnosis result to the management center 4.

By storing the diagnostic results received by the management center 4 in the auxiliary storage device 5 and periodically inspecting the stored diagnostic results, problems can be detected early without reducing the efficiency of normal operations. .

Now, in order to monitor the traffic of the terminal devices 1, 2.3, the management center 4 counts the number of SA and DA of frames flowing through the loop communication network 6 for each terminal device, and counts the number of SA and DA of frames flowing through the loop communication network 6 for each terminal device. 1 to 16-3 are checked, and a diagnosis instruction frame is transmitted to the terminal device having the minimum count value that is less than or equal to a predetermined reference value. If there are two or more terminal devices with the lowest count, for example, the terminal device with the lowest in-loop address is selected.

Frames flowing through the loop communication network 6 consist of command frames and response frames. In FIG. 1, when a command frame (CMD) is transferred from the terminal device 1 to the terminal device 2, a response frame (R8P) is transferred from the terminal bag M2 to the terminal device 1 in the same direction. In this way, since the command frame and response frame set always goes around the loop, the management center 4 can monitor the traffic of the terminal devices 1, 2.3 no matter where it is installed in the loop.

When the control unit 21 of the terminal device 1, 2.3 receives the diagnosis instruction frame, it starts the user business unit 22. The user business unit 22 receives this diagnosis instruction and starts the diagnosis unit 23 via the control unit 21. When the diagnosis unit 23 performs the diagnosis, it stores the diagnosis result in a storage device (not shown), and the control unit 2
The user operations department 22 is restarted via 1. The user business department 22 retrieves the diagnostic results stored in the storage device,
It is transmitted to the management center 4 via the control unit 1. In the management center 4, the central control unit 12 receives the diagnosis result and stores it in the auxiliary storage device 5 via the auxiliary storage control unit 13.

Next, use the management center 4 using FIGS. 3, 4, and 6.
The operation of is explained in detail.

It is the function of the traffic monitoring section 11 shown in FIG. 3 to monitor the terminal devices 1, 2.3 connected to the loop communication network 6 in the management center 4. Traffic monitoring unit 11, as shown in FIG. 4, includes an address determination unit 15 that analyzes SA and DA of frames flowing through the loop communication network 6, and a counter 16 that counts the number of SA and DA for each terminal. It consists of 1.16-2°16-3. The counter 16-1 corresponds to the terminal device 1, the counter 16-2 corresponds to the terminal device 2, and the counter 16-3 corresponds to the terminal device 3.

FIG. 6 shows the processing flow of the part of the processing program of the central control unit 12 in the management center 4 that selects the terminal device to be diagnosed next.

The address determination unit 15 reads the SA and DA of the frame flowing through the loop communication network 6, and increments the corresponding counter 1. For example, if frame 5A=1 and DA=3, counters 16-1 and 16-3 are each incremented by 1. The central control unit 12 has a timer function, and all counters 1 are triggered by a timer interrupt every unit time.
6-1゜16-2. The contents of 16-3 are read and examined, and a diagnosis instruction frame is transmitted to the terminal device corresponding to the counter that is less than the reference value and has the minimum count value. For example, if the reference value is 50, the counter 16-1=73
．． Counter 16-2=24. When the counter 16-3=41, a frame with 5A=O, DA=2, C=diagnosis instruction command code, and no ``■'' is transmitted. Thereafter, all counters 16-1, 16-2, and 16-3 are reset. If there are no counters below the standard value, all terminal devices 1 and 2
Since the traffic at 0.3 is high, the diagnostic instruction frame is not transmitted, and only the processing of resetting all counters 16-1, 16-2, and 16-3 is performed. Thereafter, from the terminal device 2 that transmitted the diagnosis instruction frame, 5A=2. DA=0. C=
Diagnosis result response code, ■ = Upon receiving the diagnosis result frame, the central control unit 12 activates the auxiliary memory control unit 13 and stores the diagnosis result of a portion of the received frame in the auxiliary memory bag W5.
Store in.

By the operation of the management center 4 as described above, it is possible to collect the diagnosis results of each terminal device connected to the loop communication network while processing the normal work without reducing the efficiency of the normal work. Thereafter, the management center 4 can discover a failure in the terminal device by periodically inspecting the diagnostic results stored in the auxiliary storage device 5. In the embodiment described above, the management center 4
The conditions for selecting a terminal device to start diagnosis are that the contents of the counters 16-1 to 16-3 are below the reference value and the terminal device having the minimum count is selected. However, under this condition, there is a possibility that the selected terminal devices may be biased. In such a case, the processing flow shown in FIG. 7 may be used. In Figure 7, the 6th
Steps with the same numbers as in the figure perform the same processing.

In the case of FIG. 7, the management center 4 has counters 16-1 to 16
-3 is checked, and the terminal device with the minimum count whose counter content is below the reference value and which has not yet been diagnosed in the relevant diagnostic cycle is selected. Here, the diagnostic cycle refers to a cycle in which all data terminal devices are diagnosed.

If there is no corresponding terminal device during the diagnostic cycle, only the processing of resetting all counters 16-1 to 16-3 is performed. When all diagnosable terminal devices connected to the loop have been diagnosed once, that diagnostic cycle is ended and a new diagnostic cycle is started.

〔Effect of the invention〕

According to the present invention, in a system in which one management center and a plurality of terminal devices are connected in a loop, diagnosis can be performed using a terminal device with low traffic, that is, a terminal device with sufficient capacity. It is possible to diagnose terminal devices without reducing work efficiency.

[Brief explanation of the drawing]

Fig. 1 is an overall configuration diagram of an embodiment of the present invention, Fig. 2 is a diagram showing the frame format of data flowing through a loop communication network, and Fig. 3 is a diagram showing the frame format of data flowing through a loop communication network.
Figure 4 shows an example of the configuration of a management center, Figure 4 shows an example of the configuration of a traffic monitoring section in the management center, Figure 5 shows an example of the configuration of a terminal device, and Figures 6 and 7 show an example of the configuration of a terminal device. It is a processing flowchart when selecting a terminal device in the central control unit of the management center. 1.2.3...Data terminal device, 4...Monitor center, 5...Auxiliary storage device, 6...Loop communication network, 7...Source address, 8...Destination address, 9 ... Control information, 10... Data content, 11... Traffic monitoring unit, 12... Central control unit, 13... Auxiliary storage control unit, 15...
- Address determination unit, 16-1 to 16-3... counter. 7. Shikuri original dress: L'llp L7 dress?・Sashimi Gojuro 1 Bow (O・ 〒”-71”l$ Figure 3

Claims (1)

[Claims] (1) In a data communication system in which at least one management center and a plurality of terminal devices are connected to a loop-shaped communication network, the management center monitors the address part of a frame flowing through the communication network, and each terminal A method for diagnosing a terminal device, characterized in that the traffic of the device is estimated and a diagnosis instruction is issued to a terminal device with a small traffic among a plurality of terminal devices connected to the communication network.