JPH03154463A - Traffic control method in monitor system - Google Patents

Abstract

PURPOSE:To avoid shortage of memory due to lots of state change data or loss of important data by suppressing an alarm output based on a preset importance in the occurrence of lots of state change data. CONSTITUTION:An item of 'class' is added to data in a monitor information database 4, and in the case of important items for each monitor items, '1' is set to the class and in the case of comparatively not important items, '2' is set to the class. An output limit flag 6 is allocated in an area of a memory 2 by the setting from a state change detection processing means 1, and when '1' is set to the flag, an output edit processing means 3 controls it that data of the class '2' in the monitor information database 4 are not outputted, and when '0' is set to the flag, the output edit processing means 3 controls it that data of the class '2' in the monitor information database 4 are outputted. Then a timer monitor processing means 5 is started by the setting from the state change detection processing means 1 and the output limit flag 6 is set to '0' after lapse of a prescribed time. Thus, shortage of memory due to lots of state change data or loss of important data is avoided.

Description

[Detailed Description of the Invention] [Summary] Regarding a processing device that centrally monitors alarms of communication network devices to be monitored, the purpose of this invention is to avoid memory exhaustion or loss of important data due to the generation of a large number of status change alarms. a state change detection processing means for detecting and processing a state change of each monitored alarm, a memory for temporarily storing detection information from the state change detection processing means, and a state change detection processing means for reading and monitoring the detection information stored in the memory; and output editing processing means for sending data to a monitoring terminal by referring to the contents of the information database.The monitoring information database is provided with items for classifying the importance of each monitoring item, and when a large amount of state change alarm occurs, the The change detection processing means sets the timer monitoring processing means and the output suppression flag, and is configured to control alarm output from the output editing processing means.

[Industrial application field]

The present invention relates to a traffic adjustment method in a processing device that centrally monitors alarms of communication network devices to be monitored.

In communication network systems such as telephones, data devices, terminals, etc., the alarm status of each device is centrally monitored by a processing device. The connection configuration diagram of the central monitoring system is shown in the second figure.
As shown in the figure. In the figure, 11 is a group of devices to be monitored; 12 is a group of devices to be monitored;
13 is a communication control device, 14 is a processing device, 15 is a CPU, 16 is a memory, 17 is a file, 18 is a display, and 19 is a printer.

The monitored devices 11 of the communication network device are grouped into groups and connected to the information collecting device 12, and the alarm information of the monitored devices 11 collected by each information collecting device 12 is
Bit information is collected by the communication control device 13 via a transmission path, multiplexed, and sent to the processing device 14. Processing device 14
consists of a CPU 15, memory 16, files 17, etc.
The captured bit information is multi-processed and output to the display 18 and printer 19, and the alarm information is displayed and printed to notify the maintenance person of the alarm status of the monitored device.

[Conventional technology]

A block diagram of a conventional processing device is shown in FIG. In the figure, 21 is a monitored device, 22 is a processing device, 23 is a status change detection processing means, 24 is a buffer, 25 is an output editing processing means, 26 is a monitoring information database, 27 is a display terminal, and 28 is a printer terminal. .

An alarm generated in the monitored device 21 is sent to the processing device 22 via a transmission path. In the processing device 22, first, a comparison is made with the previous value in the condition change detection processing means 23,
If there is a change, the change value is temporarily stored in the buffer 24, and the output editing processing means 25 reads this state change value,
Refer to the monitoring information database 26 and check the status change (state change).
The name corresponding to the alarm address of the data is searched and output to the display terminal 27 and printer terminal 28 of the monitoring terminal. Monitoring item names are registered in the monitoring information database 26 corresponding to each alarm address. For example, XX equipment major failure, ○O equipment minor failure, ΔΔ equipment operation, etc., and serious failures are important such as power outage. Alarm and minor failure indicate minor alarms such as bit errors, and operation indicates information such as checking the operation focus.

[Problems to be Solved by the Invention] In the conventional processing system described above, since it takes time for printer printing processing, when a large amount of condition change data is sent in a short period of time, the condition change detection processing means 23 and output editing processing Means 25
This results in data that cannot be processed. In this case, conventional processing methods include (1) discarding the accumulated data; (Do not output) (2) Accumulate retained data before output editing processing and process them sequentially.

There were two methods, but in the processing method (1), data is discarded at random, so there is a risk that important information will not be output, and in the processing method (2), the buffer memory 2 is usually
4, data is received and passed on, so when the amount of accumulated data increases, there is a problem that memory becomes insufficient, which hinders system operation.

An object of the present invention is to provide a processing system that avoids memory exhaustion or loss of important data due to the occurrence of a large number of state change alarms.

[Means to solve the problem] FIG. 1 shows a basic configuration diagram of the processing apparatus of the present invention.

In the figure, 1 is a state change detection processing means, 2 is a memory, 3 is an output editing processing means, 4 is a monitoring information database, 5 is a timer monitoring processing means, and 6 is an output suppression flag.

An item called "type" is added to the monitoring information database 4, and for each monitoring item, "1" is designated for an important item, and "2" is designated for a relatively unimportant item.

The output suppression flag 6 is set in the area of the memory 2 by the setting from the condition change detection processing means 1, and if set to "1", the output editing processing means 3 will not output item "2" of the monitoring information database 4. If "0" is set, the data of data item "2" of the monitoring information database 4 is also transmitted. Timer monitoring processing means 5
is activated by the settings from the condition change detection processing means 1, and sets the output suppression flag 6 to "0" after a certain period of time (about 5 minutes) has elapsed.

[Effect]

In the processing apparatus of the present invention, the data processing flow when a large amount of state change data is generated is shown in FIG. The diagram is
The data reception from the state change detection processing means 1 to the output editing processing means 3 shows the processing state when the data cannot be transferred.

■ If data cannot be transferred from the status change detection processing means 1 to the output editing processing means 3, retries are made at fixed time intervals, and if the number of attempts exceeds a predetermined number (approximately 4 times). ■Perform the following processing.

(2) The state change detection processing means 1 sets the output suppression flag 6 to "1" and sets and starts the timer monitoring processing means 5.

■ The output editing processing means 3 always monitors the output suppression flag 6, and while the output suppression flag 6 is "1", the output editing processing means 3 continuously monitors the output suppression flag 6, and while the output suppression flag 6 is "1", the logging output (continuous output to a printer, etc.) of the item of type "2" in the monitoring information database 4 is performed. output), type °l″
Output only item data.

(2) The timer monitoring processing means 5 sets the output suppression flag 6 to "0" after a certain period of time (about 5 minutes) has elapsed. As a result, the output editing processing means 3 determines the type of the monitoring information database 4.
2” resumes logging output.

Note that if the state change data is within the processing capacity, the state change detection processing means 1 sets the output suppression flag 6 to "0", so the output editing processing means 3 outputs the monitoring information database 4.
Outputs logging to the output side without limiting the monitored items.

[Embodiment] An embodiment of the present invention will be described with reference to the connection configuration diagram of a central monitoring system shown in FIG. 2. In the figure, monitored devices 11 of communication network devices are grouped into groups and connected to an information collecting device 12, and alarm information of the monitored devices 11 collected by each information collecting device 12 is transmitted via communication control via a transmission path. Device 1
3, the bit information is collected and multiplexed to the processing unit 14.
sent to. The processing device 14 consists of a CPU 15, a memory 16, a file 17, etc., and multi-processes the captured bit information, outputs it to a display 18 and a printer 19, displays and prints alarm information, and informs maintenance personnel of the monitored device. Notify alarm status.

The alarm data in this embodiment is sent to the CPU 15 of the processing device 14.
The status change detection processing means compares it with the previous value, and if there is a change, the next output editing processing means
With reference to the file 17 (monitoring information database), the name corresponding to the alarm address of the state change data is searched and output to the display 18 and printer 19.

In the above system, since printer printing processing takes time, when a large amount of condition change data is sent in a short period of time, the CPU 15 cannot process it, that is, the data from the condition change detection processing means is output and edited. A situation occurs that cannot be handled by any means. When this condition occurs four times, the output suppression flag is set by the condition change detection processing means, and the output editing processing means passes only the data of the serious failure type in the monitoring information database 17, and the data of other types is continuous. Prevent it from being output. After the status change detection processing means sets the output suppression flag and the timer processing means counts a fixed period of monitoring time, the output stop flag is returned to its original setting and the output editing processing means updates the monitoring information database 17. Data other than major failure types is also output again.

A processing flowchart of the processing device 14 of this embodiment is shown in FIG.

Alarm data is received, and if it is status change data, the file 17 is referred to (31). Check whether v=view item type in file 17 is important (32). If the important type data is “1”, please send 35), and the type data is “2”.
”, read the output suppression flag in memory 16 (33
). It is checked whether the output suppression flag is "1" or "O" (34). If the output suppression flag is "1m", this data is received repeatedly through steps (31) to (34).If the output suppression flag is "0", this data is transmitted (35).The transmitted data is printed. If the check is OK, return to data reception (36).
31)-(35). If the check is not OK, a data transfer attempt is made (37), and this retry is counted four times (38), and the output suppression flag is set to "l".
(39), and again determines whether the type of received data is “1” or “O” and repeats data reception and transmission (3
1) to (35), (Set the output suppression flag to "1" and return the flag to "O" again after about 5 minutes.) In this example, there are two types of faults: serious faults and non-serious faults. Although the type has been set, it is also possible to set three or more levels.

〔Effect of the invention〕

In the present invention, when a large amount of abnormality occurs, alarm output is suppressed based on the level of importance set in advance.
It is possible to avoid situations such as memory exhaustion or loss of important data due to a large amount of variable data.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing the principle of the present invention, FIG. 2 is a connection diagram of a central monitoring system, FIG. 3 is a processing flowchart of an embodiment, and FIG. 4 is a block diagram of a conventional processing device. In the figure, ■, 23 is a state change detection processing means, 2.16 is a memory, 3 and 25 are output editing processing means, 4 and 26 are monitoring information databases, 5 is a timer monitoring processing means, 6 is an output suppression flag, and 11 .21 is a monitoring target device, 12 is an information gathering device, 13 is a communication control device, 14.22 is a processing device,
15 is a CPU, 16 is a memory, 17 is a file, 18.
27 is a display, 19.28 is a printer, and 24 is a buffer. Processing flowchart of this embodiment Fig. 3

Claims (1)

[Claims] In a processing device of a monitoring system that centrally monitors alarm information of monitored devices and outputs alarms to a monitoring terminal, a state change detection process that detects a change in the state of collected alarms of each monitored device. means (1), a memory (2) for temporarily storing detection information from the condition change detection processing means, and reading the detection information stored in the memory (2) and referring to the contents of the monitoring information database (4). It has an output editing processing means (3) for sending data to a monitoring terminal, and the monitoring information database (4) is provided with an item for classifying the importance of each monitoring item, so that when a large amount of state change alarm occurs, the Timer monitoring processing means (5) from change detection processing means (1)
1. A traffic control method in a monitoring system, comprising: setting an output suppression flag (6) and controlling an alarm output from the output editing processing means (3).