JP2015118675A - Monitoring system, communication apparatus, monitoring device, and monitoring method of monitoring system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To promptly share information between a communication apparatus and a monitoring device.SOLUTION: A monitoring system includes a plurality of communication apparatuses and the monitoring device for monitoring operations of the plurality of communication apparatuses. The communication apparatus includes: a detection part for detecting abnormality in the operation; and a first control part which transmits to the monitoring device, in the case where the detection part detects abnormality, information including a warning indicating the abnormality and a number to be updated by a predetermined increment and transmits to the monitoring device a warning corresponding to a number included in a transmission request from the monitoring device. The monitoring device includes: a reception part for receiving information from each communication apparatus; a storage part for storing the information received by the reception part; and a second control part which determines omission of the warning from the communication apparatus of a transmission source of the information in the case where a difference between a number included in the received information and the last received number stored in the storage part is different from the predetermined increment, and transmits a transmission request to the communication apparatus of the transmission source of the information.

Description

  The present invention relates to a monitoring system, a communication device, a monitoring device, and a monitoring method for the monitoring system.

  For example, a monitoring device that monitors a transmission device sequentially transmits a polling signal to each of the plurality of transmission devices based on the SNMP (Simple Network Management Protocol) standard. The monitoring device monitors each transmission device by receiving a response indicating the state of operation from each transmission device. For example, the monitoring device is a technique for efficiently detecting the occurrence of missing data by shortening the cycle of transmitting a polling signal to a transmission device whose response is lost more than a predetermined value or by increasing the transmission order. Has been proposed (see Patent Document 1).

JP 2008-59114 A

  However, even if the polling signal transmission period for the transmission device with the number of loss more than a predetermined value is shortened or the polling signal transmission order is increased, the interval at which each transmission device receives the polling signal is different from the transmission device. The longer the number, the longer. Therefore, even if the transmission apparatus detects an abnormal operation, it is difficult to quickly obtain an alarm indicating the abnormality until a polling signal is transmitted to the transmission apparatus. Even if the monitoring device transmits a polling signal due to a communication failure with the transmission device, it may be difficult to obtain an alarm from the transmission device.

  The monitoring system, the communication device, the monitoring device, and the monitoring method of the monitoring system disclosed herein are intended to quickly share information between the communication device and the monitoring device.

  A monitoring system according to one aspect is a monitoring system including a plurality of communication devices and a monitoring device that monitors the operations of the plurality of communication devices, and the communication device includes a detection unit that detects an abnormal operation, and a detection unit When an abnormality is detected, information including an alarm indicating the abnormality and a number updated at a predetermined increment is transmitted to the monitoring device, and an alarm corresponding to the number included in the transmission request from the monitoring device is transmitted to the monitoring device. The monitoring device includes a receiving unit that receives information from each communication device, a storage unit that stores information received by the receiving unit, a number included in the received information, and a storage unit When the difference from the previously received number stored is different from the predetermined increment, second control for determining a lack of alarm from the communication device that is the information transmission source and transmitting a transmission request to the communication device that is the information transmission source Part.

  Another aspect of the communication apparatus monitors a communication apparatus for information including a detection unit that detects an abnormality in operation and an alarm indicating the abnormality and a number that is updated in a predetermined increment when the detection unit detects the abnormality. A control unit that transmits to the monitoring device and transmits an alarm corresponding to the number included in the transmission request from the monitoring device to the monitoring device.

  A monitoring device according to another aspect includes a receiving unit that receives information including an alarm indicating an abnormal operation from each of a plurality of communication devices and a number that is updated in a predetermined increment, and a memory that stores information received by the receiving unit If the difference between the number included in the received information and the number received in the storage unit and the previously received number stored in the storage unit is different from the predetermined increment, the lack of alarm from the communication device that is the source of the information is determined, And a control unit that transmits a transmission request to the transmission source communication device and acquires a missing alarm from the determined communication device.

  Another aspect of the monitoring system monitoring method is a monitoring system monitoring method comprising a plurality of communication devices and a monitoring device that monitors the operation of the plurality of communication devices, wherein each communication device detects an abnormal operation. Each communication device transmits information including an alarm indicating the detected abnormality and a number updated at a predetermined increment to the monitoring device, the monitoring device receives the information, and stores the received information in the storage unit If the difference between the number included in the received information and the previously received number stored in the storage unit is different from the predetermined increment, it is determined whether there is a missing alarm from the communication device that is the information transmission source, and the information is transmitted. The transmission device transmits a transmission request to the original communication device, the communication device that has received the transmission request transmits an alarm corresponding to the number included in the transmission request to the monitoring device, and the monitoring device acquires the missing alarm from the communication device. .

  According to the monitoring system, communication device, monitoring device, and monitoring method of the monitoring system disclosed herein, information can be quickly shared between the communication device and the monitoring device.

It is a figure which shows one Embodiment of a monitoring system, a communication apparatus, and a monitoring apparatus. It is a figure which shows the example of the monitoring process in the monitoring system shown in FIG. It is a figure which shows another embodiment of a monitoring system, a communication apparatus, and a monitoring apparatus. It is a figure which shows the example of the alarm table of the transmission apparatus shown in FIG. It is a figure which shows the example of the alarm table of the monitoring apparatus shown in FIG. It is a figure which shows the example of the monitoring process in the monitoring system shown in FIG. It is a figure which shows another embodiment of a monitoring system, a communication apparatus, and a monitoring apparatus. It is a figure which shows the example of the group table shown in FIG. It is a figure which shows the example of the monitoring process in the monitoring system 100 shown in FIG. It is a figure which shows the continuation of the example of the monitoring process in the monitoring system 100 shown in FIG. It is a figure which shows the example of the update of the allocation of the group in the group table shown in FIG.

  Hereinafter, embodiments will be described with reference to the drawings.

  FIG. 1 shows an embodiment of a monitoring system, a communication device, and a monitoring device. A monitoring system 100 illustrated in FIG. 1 includes N transmission apparatuses 10 (10 (1) -10 (N)), a monitoring apparatus 20, and transmission paths such as optical fibers that connect the transmission apparatuses 10 and transmit data. 30 and a network 40 that connects the N transmission apparatuses 10 and the monitoring apparatus 20. Here, N is a positive integer. The transmission device 10 (1) is connected to the network 50, and the transmission device 10 (N) is connected to the network 60. The transmission devices 10 (1) -10 (N) are arranged between the network 50 and the network 60 and transmit data to each other. The transmission devices 10 (1) -10 (N) are examples of communication devices. 1 shows elements included in the transmission apparatus 10 (1), the transmission apparatuses 10 (2) -10 (N) include elements having the same function.

  The transmission apparatus 10 (1) includes, for example, a control unit 11 such as a processor that executes a program. For example, the control unit 11 operates as the detection unit 12 by executing the program.

  For example, the detection unit 12 detects an abnormality in the operation of the transmission device 10 (1). For example, abnormalities in the operation of the transmission device 10 (1) detected by the detection unit 12 include abnormal operations in the transmission unit, the reception unit, or various sensors included in the transmission device 10 (1), the transmission device 10 (1). There is an abnormality in the operation of the computer device or network device connected to 1).

  For example, the control unit 11 transmits information including an alarm indicating an abnormality detected by the detection unit 12 realized by execution of the program and a number updated at a predetermined increment to the monitoring device 20. Further, the control unit 11 stores an alarm indicating an abnormality and a number in a storage unit such as a RAM (Random Access Memory). For example, the control unit 11 transmits an alarm corresponding to the number included in the transmission request from the monitoring device 20 to the monitoring device 20.

  Note that the control unit 11 increases the number by a predetermined increment (for example, one by one) each time an abnormality is detected by the detection unit 12. The program executed by the control unit 11 is stored in advance in a storage unit such as an EEPROM (Electrically Erasable Programmable Read-Only Memory) included in the transmission device 10 (1), for example.

  The monitoring device 20 includes a receiving unit 21, a control unit 22 such as a processor that executes a program, and a storage unit 23, and monitors the operation of the transmission device 10 based on a communication standard such as SNMP (Simple Network Management Protocol). To do.

  For example, the receiving unit 21 receives information including an alarm and a number indicating abnormality from the transmission device 10 via the network 40, and outputs the received alarm and number to the control unit 22.

  For example, the control unit 22 executes a program or the like, and includes a number included in information received from the transmission device 10 (1), and a number received last time from the transmission device 10 (1) stored in the storage unit 23 described later. Is compared with a predetermined increment to determine whether there is a missing alarm. When it is determined that there is a missing alarm, the control unit 22 transmits a transmission request to the transmission device 10 (1). The operation of the control unit 22 will be described with reference to FIG. Note that the monitoring device 20 loses the alarm from the transmission device 10 when the alarm from the transmission device 10 is not transmitted to the monitoring device 20 due to a failure in the network 40 or the like.

  Note that the monitoring device 20 transmits, for example, a polling signal conforming to the SNMP standard for monitoring the operation state of each transmission device 10 in a predetermined time interval from the transmission device 10 (1) to the transmission device 10 (N). You may send it with In this case, the control unit 11 of each transmission apparatus 10 synchronizes the process with the monitoring apparatus 20 upon reception of the polling signal, and monitors a response based on SNMP including information indicating the current operation status. Transmit to device 20.

  FIG. 2 shows an example of monitoring processing in the monitoring system 100 shown in FIG. For example, step S10, step S11, and step S12 are realized when the control unit 11 of the transmission apparatus 10 (1) executes a program. Moreover, step S20, step S21, step S22, and step S23 are implement | achieved when the control part 22 of the monitoring apparatus 20 runs a program. That is, FIG. 2 shows one embodiment of the monitoring method. Note that the processing shown in FIG. 2 may be executed by hardware mounted on the transmission device 10 and the monitoring device 20. In this case, the control unit 11 and the detection unit 12 of the transmission device 10 (1) shown in FIG. 1 and the reception unit 21 and the control unit 22 of the monitoring device 20 are realized by circuits arranged in the respective devices. The

  Note that the monitoring process of each of the transmission apparatuses 10 (2) -10 (N) and the monitoring apparatus 20 is the same as the monitoring process of the transmission apparatus 10 (1) and the monitoring apparatus 20 illustrated in FIG.

  In step S <b> 10, the detection unit 12 of the transmission device 10 (1) determines whether an abnormal operation is detected as described with reference to FIG. 1. The detection part 12 transfers a process to step S11, when an abnormal operation is detected (YES), and ends the process when an abnormal operation is not detected (NO).

  In step S <b> 11, as described with reference to FIG. 1, the control unit 11 transmits information including an alarm indicating the detected abnormality and a number updated at a predetermined increment to the monitoring device 20 via the network 40. .

  Next, in step S <b> 12, the control unit 11 transmits an alarm corresponding to the number included in the transmission request from the monitoring device 20 to the monitoring device 20 as described in FIG. 1. For example, the control unit 11 receives a number added to a signal requesting transmission of a missing alarm received from the monitoring device 20. For example, the control unit 11 reads an alarm corresponding to the received number from among a plurality of alarms stored in the storage unit of the transmission device 10 (1), and transmits the read alarm to the monitoring device 20 together with the number.

  On the other hand, in step S20, the control unit 22 of the monitoring device 20 determines whether or not an alarm indicating an abnormal operation is received from the transmission device 10 (1) via the reception unit 21. For example, when the control unit 22 receives an alarm (YES), the control unit 22 stores the received alarm and the number added to the alarm in the storage unit 23, and the process proceeds to step S21. On the other hand, the control part 22 complete | finishes a process, when not receiving an alarm (NO).

  In step S21, the control unit 22 determines whether there is a missing alarm in the alarm from the transmission apparatus 10 (1). For example, the control unit 22 includes the alarm number received in step S20 and the number received from the transmission device 10 (1) and stored in the storage unit included in the monitoring device 20 before the alarm received in step S20. The difference is compared with a predetermined increment. For example, when numbers “1”, “2”, and “3” are stored in the storage unit 23 and the reception unit 21 newly receives “4” as an alarm number from the transmission apparatus 10 (1), the control unit 22 determines that there is no missing alarm from the transmission device 10 (1) because the difference in number is “1”. And the control part 22 complete | finishes a process, when it determines with the alarm from the transmission apparatus 10 (1) not being missing (NO). On the other hand, for example, when the receiving unit 21 newly receives “5” as an alarm number from the transmission device 10 (1), the control unit 22 transmits the transmission because the number difference is different from the predetermined increment “1”. It is determined that there is a missing alarm in the device 10 (1). The control unit 22 determines that the alarm from the transmission device 10 (1) has been lost (YES), and proceeds to step S22.

  In step S <b> 22, the control unit 22 transmits a request signal for requesting the alarm of the missing number to the transmission device 10 (1). Note that when there are a plurality of missing numbers, the control unit 22 may add a plurality of numbers to the request signal.

  Next, in step S <b> 23, the control unit 22 acquires a missing alarm and a number added to the alarm from the transmission device 10 (1) via the reception unit 21. For example, the control unit 22 stores the missing alarm and the number added to the alarm in the storage unit 23.

  Then, the transmission process by the monitoring system 100 ends. The operation flow of the transmission apparatus 10 (1) illustrated in FIG. 2 is repeatedly executed every time the transmission apparatus 10 (1) detects an operation abnormality. The operation flow of the monitoring device 20 shown in FIG. 2 is repeatedly executed at a predetermined cycle.

  As described above, in this embodiment, when detecting an abnormality, the transmission apparatus 10 transmits an alarm to the monitoring apparatus 20 before receiving the next polling signal at the timing when the abnormality is detected. For example, when the monitoring system 100 includes 4000 transmission devices 10 and the control unit 22 of the monitoring device 20 sequentially transmits a polling signal to each transmission device 10 at a time interval of 10 seconds, each transmission device 10 transmits a polling signal. The reception interval is 40000 seconds (about 11 hours). In contrast, in this embodiment, the transmission device 10 transmits an alarm indicating an abnormal operation to the monitoring device 20 without waiting for a polling signal. Thus, regardless of the number of transmission devices 10 included in the monitoring system 100, an alarm indicating an abnormality that has occurred in the transmission device 10 can be quickly shared between the transmission device 10 and the monitoring device 20.

  Even when a communication failure occurs between the monitoring device 20 and the transmission device 10 due to a failure in the network 40 and the alarm of the transmission device 10 is lost, the monitoring device 20 transmits the information transmission source based on the number. It can be determined whether the alarm from the device 10 is missing. The monitoring device 20 transmits a transmission request to the transmission device 10 that is the information transmission source, and acquires a missing alarm from the transmission device 10, thereby quickly sharing information between the transmission device 10 and the monitoring device 20. be able to.

  Note that each of the transmission devices 10 (1) -10 (N) is connected to the network 40 and monitored by the monitoring device 20, but is not limited thereto. For example, the transmission device 10 (1) among the transmission devices 10 (1) -10 (N) is connected to the network 40, and the transmission devices 10 (2)-(N) are connected to the transmission path 30 and the transmission device 10 (1). ), An alarm indicating a failure may be transmitted to the monitoring device 20.

  FIG. 3 shows another embodiment of the monitoring system, the communication device, and the monitoring device. 3 that have the same or similar functions as those of the monitoring system 100 shown in FIG. 1 are given the same reference numerals and detailed descriptions thereof are omitted.

  The monitoring system 100 includes, for example, N transmission apparatuses 10, a monitoring apparatus 20, a transmission path 30 such as an optical fiber, and a network 40 that connects each transmission apparatus 10 and the monitoring apparatus 20.

  The transmission device 10 (1) includes a control unit 11a such as a processor that executes a program and a storage unit 13, for example. The transmission device 10 (2) -10 (N) includes an element having the same function as the transmission device 10 (1) illustrated in FIG.

  For example, the control unit 11a operates as the detection unit 12 by executing a program. In addition, the control unit 11a displays, for example, an alarm indicating an abnormality detected by the detection unit 12 realized by executing the program and a number updated at a predetermined increment, similarly to the control unit 11 illustrated in FIG. The included information is transmitted to the monitoring device 20. In addition, the control unit 11 a stores an alarm indicating abnormality and a number to be added in a storage area allocated in advance in the storage unit 13.

  For example, the control unit 11 a transmits an alarm corresponding to the number included in the transmission request from the monitoring device 20 to the monitoring device 20. The operation of the control unit 11a will be described with reference to FIG.

  The storage unit 13 includes an EEPROM, a RAM, and the like, and stores an alarm table 14 that stores a program executed by the control unit 11a and an alarm indicating a detected abnormality and a number added to the alarm. The alarm table 14 will be described with reference to FIG.

  The monitoring device 20 includes a receiving unit 21, a control unit 22 a such as a processor that executes a program, and a storage unit 23, and monitors the operation of each transmission device 10 based on a communication standard such as SNMP. The monitoring device 20 is connected to the input device 25 and the output device 26.

  For example, similarly to the control unit 22 illustrated in FIG. 1, the control unit 22 a transmits the number included in the information received from the transmission device 10 (1) and the previous transmission device 10 (1) stored in the storage unit 23. The difference from the received number is compared with a predetermined increment to determine whether there is a missing alarm. When it is determined that there is a missing alarm, the control unit 22a transmits a transmission request to the transmission device 10 (1). For example, if the control unit 22a determines that there is a missing alarm, the control unit 22a receives an instruction of a request for acquiring a missing alarm from the outside of the administrator of the monitoring apparatus 100 via the input device 25, and receives the instruction via the network 40. The transmission request is transmitted to the transmission apparatus 10.

  Also, the control unit 22a, for example, in the same manner as the control unit 22 shown in FIG. 1, transmits a polling signal compliant with the SNMP standard at predetermined time intervals in the order of the transmission device 10 (1) to the transmission device 10 (N). Send with. In this case, the control unit 11a of each transmission device 10 synchronizes the processing with the monitoring device 20 upon reception of the polling signal, and monitors a response based on SNMP including information indicating the current operation status. Transmit to device 20. For example, the control unit 22a monitors the communication state of the network 40 with the transmission apparatus 10 based on the presence / absence of a response from the transmission apparatus 10. For example, when receiving a response from the transmission device 10, the control unit 22 a determines that a failure has not occurred in the network 40 with the transmission device 10. On the other hand, when the control unit 22a does not receive a response from the transmission device 10, the control unit 22a determines that a failure has occurred in the network 40 with the transmission device 10. The operation of the control unit 22a will be described with reference to FIG.

  The storage unit 23 includes an EEPROM, a RAM, and the like, and stores a program executed by the control unit 22a, an alarm indicating an abnormality received from each of the transmission devices 10 (1) -10 (N), and a number added to the alarm. The alarm table 24 to be stored is stored. The alarm table 24 will be described with reference to FIG.

  For example, the input device 25 is a keyboard, a touch panel, or the like, and receives a request instruction for acquiring a missing alarm from an administrator of the monitoring system 100 or the like.

  For example, the output device 26 is a display such as organic EL (Organic Electro-Luminescence) or liquid crystal. The output device 26 displays, for example, an alarm indicating an abnormal operation detected in each transmission device 10 or information indicating a failure occurring in the network 40 based on the control of the control unit 22a. An administrator or the like of the monitoring system 100 performs work for restoring the transmission device 10 or the network 40 based on the information displayed on the output device 26.

  FIG. 4 shows an example of the alarm table 14 of the transmission apparatus 10 shown in FIG. The alarm table 14 has storage areas for date and time, alarm, and number.

  In the date and time storage area, for example, the date and time when the detection unit 12 detects an abnormal operation in the transmission apparatus 10 (1) is stored.

  In the alarm storage area, an alarm indicating an abnormality in the operation of the transmission device 10 (1) detected by the detection unit 12 is stored. The “alarm A”, “alarm B”, etc. stored in the alarm storage area are connected to, for example, the devices and sensors included in the transmission device 10 (1) or the transmission device 10 (1). The contents of the abnormal operation set in advance according to the computer device or network device are shown. For example, the control unit 11a selects the alarm A, the alarm B, or the like based on the content of the abnormality detected by the detection unit 12, and stores the selected alarm in the alarm storage area. Moreover, the control part 11a transmits the information containing the selected warning and the number updated by a predetermined increment to the monitoring apparatus 20.

  In the number storage area, for example, a number added to the alarm selected by the control unit 11a is stored. In the alarm table 14 shown in FIG. 4, the most recent alarm detected by the detection unit 12 in the transmission device 10 (1) is the alarm A and the number is 19.

  FIG. 5 shows an example of the alarm table 24 of the monitoring device 20 shown in FIG. The alarm table 24 has storage areas for date / time, transmission device, alarm, and number.

  In the date and time storage area, for example, the date and time when the detection unit 12 of each transmission apparatus 10 detects an abnormal operation is stored.

  In the storage area of the transmission device, for example, a device number indicating the transmission device 10 in which an abnormal operation is detected is stored. In the storage area of the transmission apparatus, information indicating the transmission apparatus 10 such as a MAC (Media Access Control) address or an IP (Internet Protocol) address may be stored instead of the apparatus number.

  The alarm storage area stores an alarm indicating an abnormal operation in each transmission device 10 detected by the detection unit 12 of each transmission device 10. “Alarm A”, “Alarm B”, “Alarm C”, “Alarm D”, and “Alarm E” in the alarm storage area are, for example, devices and sensors included in each transmission device 10 or transmitted. The content of the abnormality preset according to the computer apparatus etc. which are connected to the apparatus 10 (1) is shown.

  In the number storage area, for example, a number included in information received from each transmission device 10 is stored.

  In the alarm table 24 shown in FIG. 5, the alarm most recently received from the transmission device 10 (1) is alarm A and the number is 19. The alarm most recently received from the transmission apparatus 10 (27) is alarm A, and the number is 52. The alarm most recently received from the transmission apparatus 10 (385) is the alarm E, and the number is 102. The alarm most recently received from the transmission apparatus 10 (576) is alarm D, and the number is 31. The alarm most recently received from the transmission apparatus 10 (1047) is alarm C, and the number is 5.

  FIG. 6 shows an example of monitoring processing in the monitoring system 100 shown in FIG. For example, the operations shown from step S1a to step S1d, step S11, and step S12 are realized by the control unit 11a of the transmission apparatus 10 (1) executing a program. Further, for example, the operations shown in steps S2a to S2f and steps S20 to S23 are realized by the control unit 22a of the monitoring device 20 executing a program. That is, FIG. 6 shows another embodiment of the monitoring method. Note that the processing illustrated in FIG. 6 may be executed by hardware mounted on the transmission device 10 and the monitoring device 20. In this case, the control unit 11a and the detection unit 12 of the transmission device 10 (1) shown in FIG. 3 and the reception unit 21 and the control unit 22a of the monitoring device 20 are realized by circuits arranged in the respective devices. The

  Note that the monitoring process of each of the transmission apparatuses 10 (2) -10 (N) and the monitoring apparatus 20 is the same as the monitoring process of the transmission apparatus 10 (1) and the monitoring apparatus 20 illustrated in FIG. 6 that are the same as or equivalent to the steps shown in FIG. 2 are assigned the same step numbers and are not described here.

  In step S1a, it is determined whether or not a polling signal has been received from the control unit 11a and the monitoring device 20 of the transmission device 10 (1). When the control unit 11a receives a polling signal from the monitoring device 20 (YES), the process proceeds to step S1b. On the other hand, the control part 11a transfers a process to step S1d, when the polling signal is not received (NO).

  In step S1b, the control unit 11a transmits a response to the received polling signal to the monitoring device 20 as described with reference to FIG.

  Next, in step S1c, the control unit 11a transmits an alarm corresponding to the number included in the transmission request from the monitoring device 20 to the monitoring device 20 as described in FIG. For example, the control unit 11a receives a number added to a signal requesting transmission of a missing alarm received from the monitoring device 20. For example, the control unit 11a reads an alarm corresponding to the received number from among a plurality of alarms stored in the storage unit of the transmission device 10 (1), and transmits the read alarm together with the number to the monitoring device 20.

  Next, in step S1d, the detection unit 12 determines whether or not an operation abnormality is detected in the transmission apparatus 10 (1), as described with reference to FIG. If the detection unit 12 detects an abnormal operation (YES), the process proceeds to step S11. On the other hand, the detection part 12 transfers a process to step S1a, when abnormality in operation | movement is not detected (NO).

  On the other hand, in step S2a, the control unit 22a transmits a polling signal at predetermined time intervals in the order of the transmission device 10 (1) to the transmission device 10 (N) as described with reference to FIG.

  Next, in step S2b, the control unit 22a determines whether a response has been received from each transmission device 10. For example, when the control unit 22a receives a response from the transmission device 10 (1) (YES), the control unit 22a determines that no communication failure has occurred in the network 40 with the transmission device 10 (1), and performs the processing step. The process proceeds to S2a. On the other hand, if the control unit 22a does not receive a response from the transmission device 10 (1) (NO), the control unit 22a determines that a communication failure has occurred in the network 40 with the transmission device 10 (1), and performs the processing step. The process proceeds to S2c. The case where the control unit 22a does not receive a response from the transmission device 10 includes a case where the polling signal transmitted by the control unit 22a does not reach the transmission device 10 due to a communication failure of the network 40.

  In step S <b> 2 c, the control unit 22 a outputs an alarm indicating a communication failure that has occurred in the network 40, and an instruction to restore the communication failure in the network 40 to the output device 26. The administrator or the like starts recovery processing for a communication failure in the network 40 between the monitoring device 20 and the transmission device 10 (1) based on the alarm and instruction displayed on the output device 26.

  Next, in step S2d, the control unit 22a, after starting the recovery process for the communication failure, transmits a transmission request for the number in the latest alarm based on the instruction from the administrator or the like received from the input device 25. To 1).

  Next, in step S2e, the control unit 22a determines whether a response is received from the transmission device 10 (1) for the transmission request transmitted in step S2d. For example, when the control unit 22a receives a response from the transmission apparatus 10 (1) (YES), the process proceeds to step S2f. On the other hand, the control part 22a transfers a process to step S2d, when a response is not received from the transmission apparatus 10 (1) (NO).

  In step S2f, the control unit 22a transmits the transmission device 10 based on the number received from the transmission device 10 (1) and the number received last time from the transmission device 10 (1) stored in the alarm table 24 of the storage unit 23. It is determined whether or not there is a defect in the alarm from (1). For example, when the latest alarm number stored in the alarm table 14 received from the transmission apparatus 10 (1) is “19”, it matches the previously received number “19” stored in the alarm table 24 shown in FIG. To do. In this case, the control unit 22a determines that no new operation abnormality is detected by the detection unit 12 of the transmission apparatus 10 (1) during a communication failure in the network 40, and there is no missing alarm (NO), The process proceeds to step S20. On the other hand, for example, when the number of the latest alarm stored in the alarm table 14 received from the transmission apparatus 10 (1) is “20”, the previously received number “19” stored in the alarm table 24 shown in FIG. And different. In this case, the control unit 22a determines that a new operation abnormality is detected by the detection unit 12 of the transmission apparatus 10 (1) during a communication failure in the network 40, and that there is a missing alarm (YES), and the process is performed. Control goes to step S22.

  Then, the monitoring system 100 causes the transmission apparatus 10 (1) to execute the processes of steps S11 and S12, and causes the monitoring apparatus 20 to execute the processes of steps S20 to S23. The operation flow of the transmission apparatus 10 (1) illustrated in FIG. 6 is repeatedly executed every time the transmission apparatus 10 (1) receives a polling signal or the transmission apparatus 10 (1) detects an abnormal operation. The Moreover, the control part 11a may perform in parallel the process with respect to the polling signal from the monitoring apparatus 20 shown in FIG. 6, and the process which detects abnormality of operation | movement. On the other hand, the operation flow of the monitoring device 20 shown in FIG. 6 is repeatedly executed at a predetermined cycle.

  As described above, in this embodiment, when detecting an abnormality, the transmission apparatus 10 transmits an alarm to the monitoring apparatus 20 before receiving the next polling signal at the timing when the abnormality is detected. Thus, regardless of the number of transmission devices 10 included in the monitoring system 100, an alarm indicating an abnormality that has occurred in the transmission device 10 can be quickly shared between the transmission device 10 and the monitoring device 20.

  Further, since the increment of the number added to the alarm is constant, the monitoring device 20 can easily determine the alarm loss in each transmission device 10 by a simple method such as comparison or subtraction of the numbers. Regardless of the number, an increase in monitoring load can be avoided.

  Further, even when a communication failure occurs between the monitoring device 20 and the transmission device 10 due to a failure of the network 40 and the alarm of the transmission device 10 is lost, the monitoring device 20 uses the transmission device 10 based on the alarm table 24. It can be determined whether or not the alarm is lost. As a result, the monitoring device 20 transmits a transmission request to the transmission device 10 that is the transmission source of the information for which the alarm is lost, and acquires the alarm that has been lost from the transmission device 10, whereby the alarm table 14 and the monitoring device of the transmission device 10 are acquired. Information can be quickly shared with the 20 alarm tables 24.

  Although the storage unit 23 stores one alarm table 24, for example, an alarm table for each transmission device 10 may be stored, and the control unit 22b may store an alarm and a number for each transmission device 10.

  FIG. 7 shows another embodiment of the monitoring system, the communication device, and the monitoring device. 7 that have the same or similar functions as those of the monitoring system 100 shown in FIG. 3 are given the same reference numerals and detailed descriptions thereof are omitted.

  The monitoring system 100 includes, for example, N transmission apparatuses 10, a monitoring apparatus 20, a transmission path 30 such as an optical fiber, and a network 40 that connects each transmission apparatus 10 and the monitoring apparatus 20.

  The monitoring device 20 includes a receiving unit 21, a control unit 22b such as a processor that executes a program, and a storage unit 23a, and monitors the operation of each transmission device 10 based on a communication standard such as SNMP. The monitoring device 20 is connected to the input device 25 and the output device 26.

  For example, similarly to the control unit 22a shown in FIG. 3, the control unit 22b transmits the number included in the information received from the transmission device 10 (1) and the previous transmission device 10 (1) stored in the storage unit 23a. The difference from the received number is compared with a predetermined increment to determine whether there is a missing alarm. When it is determined that there is a missing alarm, the control unit 22b transmits a transmission request to the transmission device 10 (1). For example, if the control unit 22b determines that there is a missing alarm, the control unit 22b receives an instruction of a request for acquiring a missing alarm from the outside of the administrator of the monitoring apparatus 100 via the input device 25, and receives the instruction via the network 40. The transmission request is transmitted to the transmission apparatus 10.

  Further, the control unit 22b, for example, is based on the SNMP standard in units of groups assigned to a predetermined number (for example, 10 units) of the transmission apparatuses 10 based on the group table 27 stored in the storage unit 23a. A compliant polling signal is transmitted at predetermined time intervals. Upon receiving the polling signal, the control unit 11a of each group of transmission devices 10 that has received the polling signal synchronizes processing with the monitoring device 20, and conforms to SNMP including information indicating the current operation status. The response is transmitted to the monitoring device 20. For example, the control unit 22b monitors the communication state of the network 40 with the transmission device 10 based on the presence / absence of a response from the transmission device 10 of each group. For example, when receiving a response from the transmission device 10, the control unit 22 b determines that a failure has not occurred in the network 40 with the transmission device 10. On the other hand, when the control unit 22a does not receive a response from the transmission device 10, the control unit 22a determines that a failure has occurred in the network 40 with the transmission device 10. The operation of the control unit 22b and the group table 27 will be described with reference to FIGS.

  The storage unit 23a includes an EEPROM, a RAM, and the like, and stores a program executed by the control unit 22b, an alarm table 24, a group table 27, and the like.

  FIG. 8 shows an example of the group table 27 shown in FIG. The group table 27 has storage areas for groups and transmission apparatuses assigned to the groups.

  The group storage area includes, for example, storage areas of M groups G (1) -G (M) (M is a positive integer smaller than N).

  In the storage area of the transmission device, for example, device numbers of a predetermined number of transmission devices 10 assigned for each of the groups G (1) to G (M) are stored. In the storage area of the transmission device, information indicating the transmission device 10 such as a MAC address or an IP address may be stored instead of the device number. In the group table 27, the device numbers of the ten transmission devices 10 are stored in each of the groups G (1) to G (M), but the device numbers of a plurality of transmission devices 10 other than 10 are stored. Good. Further, in the group table 27 shown in FIG. 8, the storage areas of the third to tenth transmission apparatuses in the group G (M) are vacant, and “-” indicates vacancy.

  9 and 10 show examples of monitoring processing in the monitoring system 100 shown in FIG. The operations shown from step S1a to step S1d, step S11, and step S12 are realized by the control unit 11a of the transmission apparatus 10 (1) executing a program. The operations shown in steps S2a (1) to S2a (3), steps S2b to S2f, and steps S20 to S23 are realized by the control unit 22b of the monitoring device 20 executing a program. That is, FIG. 9 and FIG. 10 show another embodiment of the monitoring method. 9 and 10 may be executed by hardware mounted on the transmission device 10 and the monitoring device 20. In this case, the control unit 11a and the detection unit 12 of the transmission device 10 (1) shown in FIG. 7 and the reception unit 21 and the control unit 22b of the monitoring device 20 are realized by circuits arranged in each device. .

  Note that the monitoring process of each of the transmission apparatuses 10 (2) -10 (N) and the monitoring apparatus 20 is the same as the monitoring process of the transmission apparatus 10 (1) and the monitoring apparatus 20 illustrated in FIGS. . 9 and 10 that are the same as or equivalent to the steps shown in FIG. 6 are given the same step numbers, and descriptions thereof are omitted.

  In step S2a (1), the control unit 22b does not stop within a predetermined time before the start time of the period in which the polling signals are transmitted to the transmission apparatuses 10 of each group in the order of the group G (1) to the group G (M). It is determined whether an alarm is received from the transmission device 10. For example, if the control unit 22b receives an alarm from any of the transmission devices 10 within a predetermined time such as 5 minutes or 10 minutes (YES), the process proceeds to step S2a (2). On the other hand, for example, when the control unit 22b has not received an alarm from any of the transmission devices 10 or has received an alarm before a predetermined time (NO), the group G of each transmission device 10 in the next cycle (NO) 1) Refrain from updating the assignment to -G (M). And the control part 22b transfers a process to step S2a (3). Although the predetermined time is 5 minutes or 10 minutes, the predetermined time may be set according to the number of transmission apparatuses 10 or the processing capability of the monitoring apparatus 20.

  In step S2a (2), the control unit 22b updates the assignment of each transmission apparatus 10 to the groups G (1) to G (M) in the next cycle. That is, the control unit 22b receives the alarm within a predetermined time by the processing of Step S11 and Step S12 of the transmission device 10 illustrated in FIG. 10 and the processing of Step S20 to Step S23 of the monitoring device 20. Share alarms with. Therefore, the control unit 22b changes the allocation to each group G (1) -G (M) so that the polling signal is transmitted to the transmission apparatus 10 that has received the alarm within a predetermined time.

  FIG. 11 shows an example of updating the group assignment in the group table 27 shown in FIG. For example, when the transmission device 10 (2) transmits an alarm within a predetermined time, the control unit 22b starts the group G (M) indicated by shading from the storage area of the second transmission device of the group G (1). The device number of the transmission device 10 (2) is stored in the storage area of the second transmission device. The control unit 22b then assigns the device number of the transmission device 10 (11) stored in the storage area of the first transmission device of the group G (2) to the second of the group G (1) indicated by shading. Store in the storage area of the transmission device. Further, the control unit 22b assigns one device number of each of the transmission devices 10 (12) -10 (N) to the storage area of the first transmission device in the group G (M) from the first in the group G (2). Store the data one by one.

  Note that the control unit 22b transmits the transmission device 10 () stored in the storage region of the first transmission device of the group G (2) to the storage region of the second transmission device of the group G (1) that has become empty. Although the apparatus number of 11) is stored, the present invention is not limited to this. For example, the control unit 22b assigns one device number of each of the transmission devices 10 (3) -10 (N) to the storage area of the first transmission device in the group G (M) from the second in the group G (1). The data may be stored while being shifted one by one.

  Next, in step S2a (3), as described in FIG. 8, the control unit 22b determines that the control unit 22b has a predetermined time interval (for example, 30 seconds) in the order of the group G (1) to the group G (M). Etc.), a polling signal is transmitted to the transmission device 10 of each group.

  Then, the monitoring system 100 causes the transmission apparatus 10 (1) to execute the processes from Step S1a to Step S1d, Step S11, and Step S12, and causes the monitoring apparatus 20 to execute the processes from Step S2b to Step S2f and from Step S20 to Step S23, respectively. . The monitoring system 100 ends a series of processes. The operation flow of the transmission apparatus 10 (1) illustrated in FIGS. 9 and 10 is performed every time the transmission apparatus 10 (1) receives a polling signal or the transmission apparatus 10 (1) detects an abnormal operation. Repeatedly executed. Moreover, the control part 11a may perform in parallel the process with respect to the polling signal from the monitoring apparatus 20 shown in FIG. 9 and FIG. 10, and the process which detects abnormality of operation | movement. On the other hand, the operation flow of the monitoring device 20 shown in FIGS. 9 and 10 is repeatedly executed at a predetermined cycle.

  As described above, in this embodiment, when detecting an abnormality, the transmission apparatus 10 transmits an alarm to the monitoring apparatus 20 before receiving the next polling signal at the timing when the abnormality is detected. Thus, regardless of the number of transmission devices 10 included in the monitoring system 100, an alarm indicating an abnormality that has occurred in the transmission device 10 can be quickly shared between the transmission device 10 and the monitoring device 20.

  Further, since the increment of the number added to the alarm is constant, the monitoring device 20 can easily determine the alarm loss in each transmission device 10 by a simple method such as comparison or subtraction of the numbers. Regardless of the number, an increase in monitoring load can be avoided.

  Further, even when a communication failure occurs between the monitoring device 20 and the transmission device 10 due to a failure of the network 40 and the alarm of the transmission device 10 is lost, the monitoring device 20 uses the transmission device 10 based on the alarm table 24. It can be determined whether or not the alarm is lost. As a result, the monitoring device 20 transmits a transmission request to the transmission device 10 that is the transmission source of the information for which the alarm is lost, and acquires the alarm that has been lost from the transmission device 10, whereby the alarm table 14 and the monitoring device of the transmission device 10 are acquired. Information can be quickly shared with the 20 alarm tables 24.

  In addition, the monitoring device 20 transmits a polling signal for each of a predetermined number of transmission devices 10 based on the group table 27, so that the time for transmitting the polling signal to all the transmission devices 10 is set to one of the transmission devices 10. It can be shortened compared with the case of transmitting every time.

  In the monitoring system 100, the process of step S1c by the transmission apparatus 10 and the processes of step S2d, step S2e, and step S2f by the monitoring apparatus 20 may be omitted.

  In addition, although the memory | storage part 23a stored one alarm table 24, for example, the alarm table for every transmission apparatus 10 may be stored, and the control part 22b may store an alarm and a number for every transmission apparatus 10. FIG.

  From the above detailed description, features and advantages of the embodiments will become apparent. This is intended to cover the features and advantages of the embodiments described above without departing from the spirit and scope of the claims. Also, any improvement and modification should be readily conceivable by those having ordinary knowledge in the art. Therefore, there is no intention to limit the scope of the inventive embodiments to those described above, and appropriate modifications and equivalents included in the scope disclosed in the embodiments can be used.

10 (1) -10 (N) ... transmission device; 11, 11a, 22, 22a, 22b ... control unit; 12 ... detection unit; 13, 23, 23a ... storage unit; 14, 24 ... alarm table; 21; receiving unit; 25 ... input device; 26 ... output device; 27 ... group table; 40, 50, 60 ... network;

Claims (6)

A monitoring system comprising a plurality of communication devices and a monitoring device for monitoring operations of the plurality of communication devices,
The communication device
A detection unit for detecting an abnormal operation;
When the detection unit detects the abnormality, it transmits information including an alarm indicating the abnormality and a number updated in a predetermined increment to the monitoring device, and corresponds to the number included in the transmission request from the monitoring device A first control unit that transmits an alarm to the monitoring device,
The monitoring device
A receiving unit that receives the information from each of the communication devices;
A storage unit for storing the information received by the reception unit;
If the difference between the number included in the received information and the previously received number stored in the storage unit is different from the predetermined increment, determine the lack of alarm from the communication device of the information transmission source, And a second control unit that transmits the transmission request to the communication device that is a transmission source of information. The monitoring system according to claim 1,
The second control unit sequentially transmits a monitoring signal for monitoring an operation state of each communication device to the plurality of communication devices, detects a communication failure with each communication device, and responds to the communication failure. After starting recovery processing, based on an instruction received from the outside of the monitoring device, a number is acquired from the communication device in which the communication failure has occurred, and the communication failure stored in the acquired number and the storage unit has occurred The monitoring system, wherein the transmission request is transmitted to the communication device in which the communication failure has occurred when the number received last time from the communication device is different. The monitoring system according to claim 2,
When the second control unit receives the information from any one of the communication devices after the start of a period of sequentially transmitting the monitoring signal for each of a plurality of groups to which each of the predetermined number of the communication devices is assigned. The monitoring system is characterized in that the allocation of the communication device that is the transmission source of the information in the next cycle is changed to a group that transmits the monitoring signal last. A detection unit for detecting an abnormal operation;
When the detection unit detects the abnormality, it transmits information including an alarm indicating the abnormality and a number updated at a predetermined increment to the monitoring device that monitors the communication device, and is included in the transmission request from the monitoring device A control unit that transmits an alarm corresponding to the number to be sent to the monitoring device;
A communication apparatus comprising: A receiving unit that receives information including an alarm indicating an abnormal operation and a number updated in a predetermined increment from each of the plurality of communication devices;
A storage unit for storing the information received by the reception unit;
If the difference between the number included in the received information and the previously received number stored in the storage unit is different from the predetermined increment, determine the lack of alarm from the communication device of the information transmission source, A control unit that transmits the transmission request to the communication device that is a transmission source of information, and acquires a missing alarm from the determined communication device;
A monitoring device comprising: A monitoring method for a monitoring system comprising a plurality of communication devices and a monitoring device for monitoring operations of the plurality of communication devices,
Each of the communication devices detects an abnormal operation,
Each of the communication devices transmits information including an alarm indicating the detected abnormality and a number updated at a predetermined increment to the monitoring device,
The monitoring device receives the information, stores the received information in a storage unit, and a difference between a number included in the received information and a previously received number stored in the storage unit is the predetermined increment If different from the above, determine the lack of alarm from the communication device of the information transmission, and transmit the transmission request to the communication device of the information transmission source,
The communication device that has received the transmission request transmits an alarm corresponding to the number included in the transmission request to the monitoring device,
The monitoring method of the monitoring system, wherein the monitoring device acquires a missing alarm from the communication device.

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