JP2017195450A - Communication device and communication method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication device that can reliably detect a fault without increasing a load on a network and learn a cause of an alarm.SOLUTION: A communication device includes communication means 1, fault detection means 2, and control means 3. The communication means 1 communicates with a plurality of communication devices including a first communication device and a second communication device via a network. The fault detection means 2 detects the occurrence of a fault on the network. When the communication device receives information destined to the communication device indicating detection of a fault from the second communication device via the communication means 1, the control means 3 transmits information on the fault detected by the fault detection means 2 and the information on the fault received from the second communication device to the first communication device via the communication means 1.SELECTED DRAWING: Figure 1

Description

  The present invention relates to monitoring of a failure in a communication network, and more particularly to a technique for notifying failure information.

  As the importance of communication networks increases, the demand for communication continuity and stability is increasing. For this reason, network and communication device failures are widely monitored using a network monitoring device so that communication failures can be detected and dealt with early. The network monitoring device monitors a plurality of communication devices as monitoring target devices via a network.

  The network monitoring device has various communication-related items such as line card failure in the communication device to be monitored, alarm associated with an increase in packet discard rate, notification of optical signal disconnection, route switching due to failure and notification of configuration change. To monitor. In addition, the number of items to be monitored increases due to the complexity of the network configuration, and the load on the network monitoring apparatus and the corresponding workers increases.

  When a failure occurs in a network, when a failure occurs in one section, a plurality of communication devices on the path may detect various types of failures derived from the failure that occurred in one section. For this reason, the failure detected by each communication device may be transmitted to the network monitoring device at the same time, and a state may occur where data is pushed to the network monitoring device in bursts. When the network monitoring device receives a bursty alarm, the load on the network monitoring device increases, and there is a possibility that the alarm may not be processed and the alarm may be lost.

  In addition, if a connectionless protocol is used for sending and receiving alarms to prioritize processing speed, sending alarm signals to the network monitoring device in bursts may depend on the load situation on the relay network. The alarm signal may be lost. In addition, when bursty alarms reach the network monitoring device at the same time, it is a complicated task for the operator to specify a section in which a problem actually occurs from a large number of alarms. Therefore, when a failure occurs on the network, it is desirable to have a technology that can reliably detect the failure without increasing the load on the network and understand the cause of the alarm, and related technologies are being developed. . As such a technique for reliably detecting a failure without increasing the network load and grasping the cause of an alarm, for example, a technique such as Patent Document 1 is disclosed.

  Patent Document 1 relates to a network system in which each node forming a network performs failure monitoring in a distributed manner. In the network system of Patent Document 1, a plurality of monitoring nodes are set for monitored nodes to be monitored. The monitoring nodes are equally selected so that the load as the monitoring node is not concentrated on one node in the network area around the monitored node. The monitored node also functions as a monitoring node for other nodes. According to Patent Document 1, such a configuration allows mutual monitoring between nodes while distributing the monitoring burden on each node.

JP 2010-87897 A

  However, the technique of Patent Document 1 is not sufficient in the following points. In the network system of Patent Document 1, by monitoring a monitored node with a plurality of nodes, when a failure occurs in the monitored node while distributing the load, other nodes detect the failure and complement the function Etc. However, in the network system of Patent Document 1, failure detection is performed in a distributed manner. However, when failure information is to be obtained, it is necessary to transmit failure information to a specific communication device. At that time, when a failure occurs in one node, information related to the failure is sent from a plurality of monitoring nodes to a specific communication device, and another node detects the failure as a network and transmits information related to the failure. there's a possibility that. For this reason, in the network system of Patent Document 1, when a failure occurs, the load is concentrated on one communication device, and there is a possibility that information regarding the failure may be lost, or that the operator may not accurately grasp the occurrence and cause of the failure. is there. Therefore, the technique of Patent Document 1 is not sufficient as a technique for reliably detecting a failure without increasing the network load and grasping the cause of the alarm.

  In order to solve the above-described problems, an object of the present invention is to obtain a communication device that can reliably detect a failure and increase the cause of an alarm without increasing the load on the network.

  In order to solve the above problems, the communication apparatus of the present invention includes a communication unit, a failure detection unit, and a control unit. The communication means communicates with a plurality of communication devices including the first communication device and the second communication device via a network. The failure detection means detects the occurrence of a failure on the network. The control means receives the information on the failure detected by the failure detection means when receiving the information addressed to the own device indicating that the failure has been detected from the second communication device via the communication means, and the second communication device. The received failure information is transmitted to the first communication device via the communication means.

  The communication method of the present invention communicates with a plurality of communication devices including a first communication device and a second communication device via a network. The communication method of the present invention detects the occurrence of a failure on the network. When the communication method of the present invention receives information addressed to its own device indicating that a failure has been detected from the second communication device, the failure information detected by the own device and the failure received from the second communication device. Is transmitted to the first communication device.

  According to the present invention, it is possible to reliably detect a failure and increase the cause of an alarm without increasing the load on the network.

It is a figure which shows the outline | summary of a structure of the 1st Embodiment of this invention. It is a figure which shows the outline | summary of a structure of the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of a structure of the communication apparatus of the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of a structure of the network monitoring apparatus of the 2nd Embodiment of this invention. It is a figure which shows the example of a structure of the monitoring collection signal of the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow of the 2nd Embodiment of this invention. It is a figure which shows the example of a structure of the communication system of the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow of the 2nd Embodiment of this invention. It is a figure which shows the outline | summary of the operation | movement flow of the 2nd Embodiment of this invention. It is a figure which shows the example of the other structure of the monitoring collection signal in the 2nd Embodiment of this invention. It is a figure which shows the example of the other structure of the monitoring collection signal in the 2nd Embodiment of this invention.

(First embodiment)
A first embodiment of the present invention will be described in detail with reference to the drawings. FIG. 1 shows an outline of a configuration of a communication apparatus according to the present embodiment. The communication apparatus according to the present embodiment includes a communication unit 1, a failure detection unit 2, and a control unit 3. The communication means 1 communicates with each of a plurality of communication devices including the first communication device and the second communication device via a network. The failure detection means 2 detects the occurrence of a failure on the network. The control means 3 receives the failure information detected by the failure detection means 2 when receiving information addressed to the own apparatus indicating that the failure has been detected from the second communication apparatus via the communication means 1 and the second The failure information received from the communication device is transmitted to the first communication device via the communication means 1.

  The communication device according to the present embodiment transmits the failure information detected by the failure detection means 2 and the failure information detected by the second communication device received to the device itself to the first communication device. That is, the communication device of the present embodiment transmits failure information to the first communication device instead of the second communication device. Therefore, the first communication device that receives the failure information from the communication device of the present embodiment can receive the information of the second communication device and the communication device of the present embodiment together. By adopting such a configuration, it is not necessary for the second communication device and the communication device of the present embodiment to individually send failure information to the first communication device, so that the load on the network can be reduced. Further, in the first communication device, it is possible to refer to the failure information detected by the second communication device and the failure information detected by the communication device of this embodiment in a list. As a result, by using the communication apparatus of the present embodiment, it is possible to reliably detect a failure and grasp the cause of the alarm without increasing the network load.

(Second Embodiment)
A second embodiment of the present invention will be described in detail with reference to the drawings. FIG. 2 shows an outline of the configuration of the communication system of the present embodiment. The communication system of this embodiment includes a communication device 10 and a network monitoring device 20. There are n communication devices 10 from the communication device 10-1 to the communication device 10-n. The communication device 10 and the network monitoring device 20 are connected to each other via the network 40.

  In the communication system of the present embodiment, the network monitoring device 20 monitors the state of communication performed by the communication devices 10 with each other via the network 40, that is, whether or not a failure has occurred. The communication device 10 is connected to an information processing device or another network, and the information processing device or other network connected to the communication device 10 is connected to the other communication device 10 via the communication device 10. Packet communication is performed with devices and networks.

  The communication system according to the present embodiment is characterized in that the communication device 10 is hierarchized to transmit failure information on the network 40, and the network monitoring device 20 manages failure information and notifies a worker. That is, the communication device 10 other than the communication device 10 belonging directly to the lower layer of the network monitoring device 20 transmits information on the failure detected by the own device to the network monitoring device 20 via the upper communication device 10. To do. The communication system according to the present embodiment is characterized in that the data amount of failure information transmitted directly to the network monitoring device 20 can be suppressed by hierarchizing the communication device 10 and transmitting failure information.

  The configuration of the communication device 10 will be described. FIG. 3 is a block diagram illustrating an outline of the configuration of the communication device 10 according to the present embodiment. The communication device 10 includes a communication unit 31, a monitoring control unit 32, an information management unit 33, and a failure detection unit 34.

  The communication unit 31 has a function of communicating with the network monitoring device 20 and other communication devices 10 via the network 40. Of the packets received via the network 40, the communication unit 31 transfers a packet for the device itself to the inside of the device. The communication unit 31 outputs the data transferred to the inside of the apparatus to the monitoring control unit 32 or an information processing apparatus connected to the own apparatus. In addition, the communication unit 31 transmits a packet based on data received from the monitoring control unit 32 or an information processing device connected to the own device to the network 40. The communication unit 31 of the present embodiment corresponds to the communication unit 1 of the first embodiment.

  The monitoring control unit 32 manages alarms sent from other communication devices 10, that is, information on failures detected by the other communication devices 10, and manages the own device on behalf of the transmission source communication device 10. It has a function of transmitting an alarm to the device 10 or the network monitoring device 20. In addition, the monitoring control unit 32 sets the settings and information of its own device, that is, the network monitoring device 20 or the communication device 10 of the upper layer and the communication device 10 belonging to the own device, that is, the communication device 10 of the lower layer. Has a function to perform management. In the present embodiment, the communication device 10 serving as the alarm transmission source is referred to as a monitoring target device. In the present embodiment, the communication device 10 that receives an alarm from the communication device 10 in the lower layer of the own device and transmits the alarm to the communication device 10 in the upper layer of the own device is referred to as a network monitoring target / collection device. .

  When the monitoring control unit 32 receives, as an alarm signal, information on a failure detected from the monitoring target device, that is, the communication device 10 managed by the own device, the monitoring control unit 32 replaces the communication device 10 of the transmission source with the network monitoring device 20, Alternatively, an alarm signal is transmitted to the communication device 10 in the upper layer. At this time, for the transmission destination of the alarm signal, that is, the communication device 10 higher than the own device, the own device becomes the monitoring target device. Therefore, since the alarm signal is collected from the lower layer and the alarm signal is transmitted to the upper layer, the communication device 10 becomes a network monitoring target / collection device.

  When the monitoring control unit 32 receives a warning signal received from another communication device 10 and detects a failure in the own device, the monitoring control unit 32 detects the failure information received as the warning signal and the failure detected by the own device. Is transmitted as an alarm signal to the upper layer device. Further, the monitoring control unit 32 stores and manages the information of the communication device 10 managed by the own device and the information of the communication device 10 and the network monitoring device 20 managing the own device in the information management unit 33.

  When the monitoring control unit 32 receives a monitoring collection signal from the network monitoring device 20 or another communication device 10, it checks whether the communication state of the network 40 can be monitored. The monitoring collection signal refers to a signal for confirming whether setting as a communication device for monitoring other devices is possible. The monitoring control unit 32 determines whether monitoring of the communication state of the network 40 is possible based on the load factor of the communication unit 31 and the like. The monitoring control unit 32 sends a signal indicating whether the communication status can be monitored or not as a response signal to the transmission source of the monitoring collection signal via the communication unit 31. When the monitoring control unit 32 determines that the communication state can be monitored, the monitoring control unit 32 stores the information of the device that is the transmission source of the monitoring collection signal in the information management unit 33 as the attribution destination of the own device.

  The monitoring control unit 32 transmits a monitoring collection signal to the communication device 10 belonging to the own device, and confirms whether or not the communication state of the network 40 can be monitored. The monitoring control unit 32 determines whether to confirm the monitoring of the network 40 by the destination communication device 10 based on the response signal transmitted from the destination communication device 10 of the monitoring collection signal. When the monitoring control unit 32 receives a response signal indicating that the network 40 can be monitored from the communication device 10 that is the transmission destination of the monitoring collection signal, the monitoring control unit 32 sets the communication device 10 of the response signal transmission source as the communication device 10 that belongs to the own device. Information is set in the information management unit 33. Further, the monitoring control unit 32 hierarchizes the information of the communication device 10 to which the monitoring collection signal is transmitted and the own device, and hierarchizes the information hierarchized into the communication device 10 that has transmitted the monitoring collection signal to the own device. As shown in FIG.

  When the monitoring control unit 32 receives a response signal indicating that monitoring of the network 40 is impossible from the communication device 10 that is the transmission destination of the monitoring collection signal, the monitoring control unit 32 transmits the response signal from the communication device 10 that belongs to the own device. Erase information. Further, the monitoring control unit 32 of the present embodiment corresponds to the control unit 3 of the first embodiment.

  The information management unit 33 has a function of storing information of the network monitoring device 20 or the communication device 10 to which the own device belongs. Further, the information management unit 33 has a function of storing information of the communication device 10 belonging to the own device. The information management unit 33 uses, for example, the IP (Internet Protocol) of each device as the information of the network monitoring device 20 or the communication device 10 to which the device belongs, and the information of the communication device 10 to which the device belongs. The address information is saved. The information of the network monitoring device 20 or the communication device 10 to which the own device belongs and the information of the communication device 10 to which the own device belongs can be other than the IP address as long as each device can be identified and managed. It may be the information.

  The failure detection unit 34 has a function of monitoring communication on the network 40 and the presence / absence of a failure of the own device. The failure detection unit 34 monitors the communication state of the network 40 and its own device. The failure detection unit 34 detects the occurrence of a failure based on signal interruption, packet processing speed, and the like. When the failure detection unit 34 detects an abnormality in the communication state, the failure detection unit 34 sends information indicating that a failure has occurred to the monitoring control unit 32. Further, the failure detection unit 34 of the present embodiment corresponds to the failure detection unit 2 of the first embodiment.

  Next, the configuration of the network monitoring device 20 will be described. FIG. 4 is a block diagram showing an outline of the configuration of the network monitoring device 20 of the present embodiment. The network monitoring device 20 includes a communication unit 21, a communication monitoring unit 22, and a communication device management unit 23.

  The communication unit 21 has a function of communicating with the communication device 10 via the network 40. Of the packets received via the network 40, the communication unit 21 transfers a packet for the device itself to the inside of the device. The communication unit 21 outputs the data transferred to the inside of the device to the communication monitoring unit 22 or its own device. In addition, the communication unit 21 transmits a packet based on the data received from the communication monitoring unit 22 to the network 40.

  The communication monitoring unit 22 has a function of monitoring the presence / absence of a failure in the communication device 10 and the network 40 and managing information on the presence / absence of a failure. Further, the communication monitoring unit 22 has a function of managing hierarchized information, that is, information on the communication devices 10 hierarchized in order to collect failure information.

  When the communication monitoring unit 22 detects a failure in the communication device 10 and the network 40, the communication monitoring unit 22 notifies the worker and the network management system of information on the detected failure. The communication monitoring unit 22 detects the occurrence of a failure based on an alarm sent from the communication device 10.

  The communication monitoring unit 22 sends a signal for confirming whether or not the failure of the network 40 can be monitored to the communication device 10 managed by the device as a monitoring collection signal via the communication unit 21. The communication monitoring unit 22 transmits a signal for confirming whether or not monitoring is possible, together with information on the communication device 10 arranged on the network 40. When the communication monitoring unit 22 receives a response to the monitoring collection signal from the communication device 10 to which the monitoring collection signal is transmitted, based on the received information, the hierarchical information stored in the communication device management unit 23, that is, The information that hierarchizes the communication device 10 is updated.

  FIG. 5 shows an example of the configuration of the monitoring collection signal that the network monitoring device 20 transmits to the communication device 10. The monitoring collection signal is composed of information on a monitoring and collecting apparatus that is an upper layer apparatus and information on a monitoring and handling apparatus that is a lower layer apparatus. “S_1” and “N_2” in FIG. 5 indicate information for identifying each device. As information for identifying each device, for example, an IP address is used. The information for identifying each device may be information other than the IP address as long as it can identify each device. The communication apparatus 10 that has received the monitoring collection signal in FIG. 5 recognizes the device of “S_1” that is the monitoring collection apparatus for itself as the transmission destination of the alarm. In addition, the communication device 10 that has received the monitoring collection signal of FIG. 5 selects one of the devices, such as “N_2” and “N_3”, which are candidates for the monitoring target device for the own device, and receives the monitoring collection signal. Send. At this time, the communication device 10 that has received the monitoring collection signal of FIG. 5 functions as a network monitoring target / collecting device.

  The communication device management unit 23 has a function of managing information on the communication device 10 connected to the network 40. The communication device management unit 23 stores information for identifying each communication device 10 connected to the network 40. As information for identifying each communication device 10, for example, IP address information is stored. The communication device management unit 23 stores hierarchical information of the communication device 10 that is used when monitoring the abnormality of the network 40 and the communication device 10. In addition, the communication device management unit 23 stores information on the operating states of the network 40 and the communication device 10, that is, information on the presence or absence of a failure in the network 40 and the communication device 10.

  The network 40 is a communication network that connects between the communication device 10 and the network monitoring device 20. The network 40 is configured as an optical communication network, for example. The network 40 may be provided with a relay device such as a router.

  An operation when monitoring a failure that occurs on the network 40 in the communication system of the present embodiment will be described. First, an operation when the communication device 10 receives a monitoring collection signal will be described. FIG. 6 is a diagram illustrating an operation flow when the communication device 10 according to the present embodiment sets the hierarchized information based on the monitoring collection signal.

  First, a monitoring collection signal is transmitted via the network 40 from the network monitoring device 20 or a higher-level communication device to a candidate communication device 10 that is to become a new monitoring device. When the communication unit 31 of the communication device 10 receives the monitoring collection signal addressed to itself, it sends the received monitoring collection signal to the monitoring control unit 32 (step 201).

  Upon receiving the monitoring collection signal, the monitoring control unit 32 refers to the information management unit 33 and confirms whether there is a communication device that is a candidate for the next layer. When there is no communication device of the next layer (No in Step 202), the monitoring control unit 32 determines that monitoring of other communication devices is unnecessary. When determining that monitoring of other communication devices is unnecessary, the monitoring control unit 32 sets the device that is the transmission source of the monitoring collection signal as the transmission destination of the alarm signal from its own device, and sets the information of the transmission destination as the information management unit 33. (Step 209). When the alarm signal transmission destination is set, the monitoring control unit 32 transmits, as a response signal, information indicating that the own apparatus only transmits the alarm to the higher-layer apparatus that is the transmission source of the monitoring collection signal (step). 208). At this time, the communication device 10 functions as a monitoring target device of another communication device, and the own device is not a network monitoring target / collection device.

  When there is a communication device in the next layer (Yes in step 202), the monitoring control unit 32 determines whether the communication device in the next layer can be monitored by the own device. The monitoring control unit 32 determines whether monitoring is possible based on the load state of the communication unit 31 and the like.

  When monitoring of the communication device in the next layer is impossible (No in Step 203), the monitoring control unit 32 determines that monitoring of other communication devices is unnecessary. When determining that monitoring of other communication devices is unnecessary, the monitoring control unit 32 sets the device that is the transmission source of the monitoring collection signal as the transmission destination of the alarm signal from its own device, and sets the information of the transmission destination as the information management unit 33. (Step 209). When the alarm signal transmission destination is set, the monitoring control unit 32 transmits, as a response signal, information indicating that the own apparatus only transmits the alarm to the higher-layer apparatus that is the transmission source of the monitoring collection signal (step). 208). At this time, the communication device 10 functions as a monitoring target device of another communication device, and the own device is not a network monitoring target / collection device.

  When the next layer communication device can be monitored (Yes in Step 203), the monitoring control unit 32 determines the next layer communication device to be monitored (Step 204). When the next layer communication device is determined, the monitoring control unit 32 transmits a monitoring collection signal to the next layer communication device via the communication unit 31 (step 205). If there are a plurality of candidate communication devices that are communication devices of the next layer, the monitoring control unit 32 selects any one of the communication devices that are candidates and transmits a monitoring collection signal. For example, the monitoring control unit 32 selects an adjacent communication device as a communication device of the next layer and transmits a monitoring collection signal.

  When the monitoring collection signal is transmitted, the monitoring control unit 32 stands by until a response to the monitoring collection signal is sent from the communication device of the transmission destination. When the monitoring control unit 32 receives a response signal to the monitoring collection signal via the communication unit 31 (step 206), the monitoring control unit 32 processes the result of the monitoring setting based on the response signal (step 207).

  When the communication device of the next layer has a function as a monitoring device and transmits hierarchized information, the monitoring control unit 32 stores the hierarchized information in the information management unit 33. In addition, the monitoring control unit 32 generates hierarchized information in which information of the own device is added to the received hierarchized information. At this time, the communication device 10 functions as a network monitoring target / collection device.

  If the communication device of the next layer does not have a function as a monitoring device, the hierarchical information between the communication device of the next layer to be monitored and the own device is generated. If a response signal is not sent after a predetermined time has passed from the communication device of the next layer, the monitoring control unit 32 transmits the hierarchization information again or there is a communication device of the next layer. Process as if not.

  When the hierarchized information is generated, the monitoring control unit 32 transmits the hierarchized information generated via the communication unit 31 to the upper layer device as a response signal (step 208).

  Next, in the communication system according to the present embodiment, an operation when hierarchical information is set by communication between the network monitoring device 20 and each communication device 10 will be described. In the following description, the communication system includes the first communication device 11, the second communication device 12, the third communication device 13, and the fourth communication device 14 as the communication device 10 as shown in FIG. A case will be described as an example. In the example of FIG. 7, the first communication device 11, the second communication device 12, and the third communication device 13 have a function of monitoring other communication devices, and the fourth communication device 14 has other functions. It is assumed that it does not have a function of monitoring the communication device. FIG. 8 is a diagram illustrating an operation flow when hierarchical information is set by communication between the network monitoring device 20 and each communication device 10.

  First, an operator or the like inputs a request for starting generation of hierarchized information and information on the communication device 10 in the first layer to the communication monitoring unit 22 of the network monitoring device 20. In the following description, it is assumed that the first communication device 11 is selected as the first-layer communication device 10. The request for starting generation of the hierarchized information and the information of the communication device 10 in the first layer may be input from a network management system or the like via the network 40.

  When a request for starting generation of hierarchized information and information on the communication device 10 in the first layer are input, the communication monitoring unit 22 generates data of a monitoring collection signal. The communication monitoring unit 22 associates the information of the own device with the information of the communication device other than the first communication device 11 selected as the first-layer communication device, and generates the data of the monitoring collection signal. When the monitoring collection signal data is generated, the communication monitoring unit 22 transmits the generated monitoring collection signal to the first communication device 11 via the communication unit 21 (step 101).

  The monitoring collection signal transmitted from the network monitoring device 20 is transmitted through the network 40 and input to the first communication device 11. When the communication unit 31 of the first communication device 11 receives the monitoring collection signal addressed to itself, the communication unit 31 sends the received signal to the monitoring control unit 32. When the monitoring control unit 32 receives the monitoring collection signal, the monitoring control unit 32 checks whether there is a device of the next layer. If it is confirmed that there is a next layer device, the monitoring control unit 32 determines whether the next device can monitor the next layer communication device. If it is determined that monitoring is possible, the monitoring control unit 32 determines a communication device of the next layer. Here, the monitoring control unit 32 will be described assuming that the second communication device 12 is selected as the communication device of the next layer.

  When the first communication device 11 selects the second communication device 12 as the communication device of the next layer, the first communication device 11 generates a monitoring collection signal to be transmitted to the second communication device 12. When the monitoring collection signal is generated, the monitoring control unit 32 transmits the monitoring collection signal to the second communication device 12 via the communication unit 31 (step 102).

  The monitoring collection signal transmitted from the first communication device 11 is transmitted through the network 40 and input to the second communication device 12. When the communication unit 31 of the second communication device 12 receives the monitoring collection signal addressed to the own device, the communication unit 31 sends the received signal to the monitoring control unit 32. When the monitoring control unit 32 receives the monitoring collection signal, the monitoring control unit 32 checks whether there is a device of the next layer. If it is confirmed that there is a next layer device, the monitoring control unit 32 determines whether the next device can monitor the next layer communication device. If it is determined that monitoring is possible, the monitoring control unit 32 determines a communication device of the next layer. Here, the monitoring control unit 32 will be described assuming that the third communication device 13 is selected as the communication device of the next layer.

  When the second communication device 12 selects the third communication device 13 as the next-layer communication device, the second communication device 12 generates a monitoring collection signal to be transmitted to the third communication device 13. When the monitoring collection signal is generated, the monitoring control unit 32 transmits the monitoring collection signal to the third communication device 13 via the communication unit 31 (step 103).

  The monitoring collection signal transmitted from the second communication device 12 is transmitted through the network 40 and input to the third communication device 13. When the communication unit 31 of the third communication device 13 receives the monitoring collection signal addressed to itself, the communication unit 31 sends the received signal to the monitoring control unit 32. When the monitoring control unit 32 receives the monitoring collection signal, the monitoring control unit 32 checks whether there is a device of the next layer. When the monitoring control unit 32 of the third communication device 13 confirms that the fourth communication device 14 of the next layer is present but does not have a monitoring function, the destination of the alarm signal is transmitted to the fourth communication device 14. A signal for setting the self-device is transmitted via the communication unit 31 (step 104).

  When the monitoring control unit 32 of the fourth communication device 14 receives the signal for setting the transmission destination of the alarm signal to the third communication device 13 via the network 40 and the communication unit 31, the monitoring communication unit 32 sets the transmission destination of the alarm to the third communication. The information is set in the device 13 and stored in the information management unit 33.

  When a signal for setting the destination of the alarm signal to be transmitted to the fourth communication device 14 is transmitted to the fourth communication device 14, the monitoring control unit 32 of the third communication device 13 receives information on the own device and the fourth monitored by the own device. The hierarchized information is generated by combining the information of the communication devices 14. When the hierarchized information is generated, the monitoring control unit 32 transmits the generated hierarchized information as a response signal to the second communication device 12 via the communication unit 31 (step 105).

  When the communication unit 31 of the second communication device 12 receives a response signal addressed to itself from the third communication device 13 via the network 40, the communication unit 31 sends the hierarchical information received as the response signal to the monitoring control unit 32. When the monitoring control unit 32 receives the layered information generated by the third communication device 13, the monitoring control unit 32 adds the information of the own device to the layer higher than the third communication device 13 of the received layered information, and stores the layered information. Generate. When the hierarchized information is generated, the monitoring control unit 32 stores the generated hierarchized information in the information management unit 33. Further, the monitoring control unit 32 transmits the communication unit 31 to the first communication device 11 via the hierarchized information generated by the own device (step 106).

  When the communication unit 31 of the first communication device 11 receives a response signal addressed to itself from the second communication device 12 via the network 40, the communication unit 31 sends the hierarchical information received as the response signal to the monitoring control unit 32. When the monitoring control unit 32 receives the layered information generated by the second communication device 12, the monitoring control unit 32 adds the information of the own device to the layer above the second communication device 12 of the received layered information, and stores the layered information. Generate. When the hierarchized information is generated, the monitoring control unit 32 stores the generated hierarchized information in the information management unit 33. Further, the monitoring control unit 32 transmits the communication unit 31 to the network monitoring device 20 via the hierarchized information generated by the own device (step 107).

  When the communication unit 21 of the network monitoring device 20 receives a response signal addressed to itself from the first communication device 11 via the network 40, the communication unit 21 sends the hierarchical information received as the response signal to the communication monitoring unit 22. When the communication monitoring unit 22 receives the layered information generated by the first communication device 11, the communication monitoring unit 22 stores the received layered information in the communication device management unit 23. When the received hierarchical information is stored in the communication device management unit 23, the setting of the hierarchical information is completed. At this time, the first communication device 11, the second communication device 12, the third communication device 13, and the fourth communication device 14 are set in the hierarchical information in order from the upper layer. The network monitoring device 20 manages each communication device based on the hierarchical information stored in the communication device management unit 23. In addition, each communication device performs transmission of an alarm and management of a communication device belonging to the own device based on information stored in the information management unit 33 of the own device.

  Next, an operation when a failure occurs in the communication system of this embodiment will be described. FIG. 9 shows an operation flow when a failure occurs in the communication system of this embodiment and the fourth communication device 14 detects the occurrence of the failure.

  When the monitoring control unit 32 of the fourth communication device 14 detects a failure in the network 40, the monitoring control unit 32 refers to the information management unit 33 to determine the transmission destination of the alarm. Since the 4th communication apparatus 14 is a lower layer of the 3rd communication apparatus 13, the monitoring control part 32 judges the 3rd communication apparatus 13 as a transmission destination of an alarm. If the monitoring control unit 32 determines that the third communication device 13 is the transmission destination of the alarm, the monitoring control unit 32 transmits the alarm to the third communication device 13 via the communication unit 31 (step 111).

  When the communication unit 31 of the third communication device 13 receives an alarm signal addressed to itself from the fourth communication device 14 via the network 40, the communication unit 31 sends the received alarm to the monitoring control unit 32. When the monitoring control unit 32 receives the alarm, the monitoring control unit 32 determines whether or not an alarm is transmitted from the own device for the same failure as the received alarm.

  When the alarm for the same failure has already been transmitted from the own device, the monitoring control unit 32 discards the received alarm. When the same alarm as the received alarm is not transmitted, the monitoring control unit 32 refers to the information management unit 33 to determine the transmission destination of the alarm. When the same failure is detected but no alarm is transmitted, information indicating the failure is also added to the device itself and added to the alarm information. If the monitoring control unit 32 determines that the second communication device 12 is the transmission destination of the alarm, the monitoring control unit 32 transmits the alarm to the second communication device 12 via the communication unit 31 (step 112).

  When the communication unit 31 of the second communication device 12 receives an alarm signal addressed to itself from the third communication device 13 via the network 40, the communication unit 31 sends the received alarm to the monitoring control unit 32. When the monitoring control unit 32 receives the alarm, the monitoring control unit 32 determines whether or not an alarm is transmitted from the own device for the same failure as the received alarm.

  When the alarm for the same failure has already been transmitted from the own device, the monitoring control unit 32 discards the received alarm. When the same alarm as the received alarm is not transmitted, the monitoring control unit 32 refers to the information management unit 33 to determine the transmission destination of the alarm. When the same failure is detected but no alarm is transmitted, information indicating the failure is also added to the device itself and added to the alarm information. When the monitoring control unit 32 determines that the first communication device 11 is the transmission destination of the alarm, the monitoring control unit 32 transmits the alarm to the first communication device 11 via the communication unit 31 (step 113).

  When the communication unit 31 of the first communication device 11 receives an alarm signal addressed to itself from the second communication device 12 via the network 40, the communication unit 31 sends the received alarm to the monitoring control unit 32. When the monitoring control unit 32 receives the alarm, the monitoring control unit 32 determines whether or not an alarm is transmitted from the own device for the same failure as the received alarm.

  When the alarm for the same failure has already been transmitted from the own device, the monitoring control unit 32 discards the received alarm. When the same alarm as the received alarm is not transmitted, the monitoring control unit 32 refers to the information management unit 33 to determine the transmission destination of the alarm. When the same failure is detected but no alarm is transmitted, information indicating the failure is also added to the device itself and added to the alarm information. If the monitoring control unit 32 determines that the network monitoring device 20 is the transmission destination of the alarm, the monitoring control unit 32 transmits the alarm to the network monitoring device 20 via the communication unit 31 (step 114).

  When the communication unit 21 of the network monitoring device 20 receives an alarm signal addressed to itself from the first communication device 11 via the network 40, the communication unit 21 sends the received alarm to the communication monitoring unit 22. When the communication monitoring unit 22 receives the alarm, the communication monitoring unit 22 notifies the worker or the like of the received alarm information. The operator can refer to the failure information transmitted from each communication device 10 in a list in a consolidated state.

  In the communication system according to the present embodiment, the communication device 10 that has received the monitoring collection signal determines whether or not the information on the failure detected by the other communication device 10 can be managed. Managed as a device. In the communication system of the present embodiment, when a communication device 10 in a layer lower than its own device detects a failure, it sends failure information to the communication device 10 in the upper layer instead of the communication device 10 that has detected the failure. Therefore, the upper layer communication device 10 does not need to receive information on the failure detected individually from the lower layer communication device 10. Therefore, in the communication system of this embodiment, the amount of data transmitted on the network 40 when a failure occurs can be suppressed. By suppressing the amount of data, it is possible to suppress discarding of packets for notifying failure information on the network 40, so that the failure can be more reliably transmitted from the communication device 10 to the network monitoring device 20. Become. Further, in the communication system according to the present embodiment, the failure information detected by the plurality of communication devices 10 is received from one communication device 10, so that the listability when the content of the failure is referred to by the network monitoring device 20 is improved. To do.

  In other words, in the communication system of the present embodiment, the network monitoring device 20 can suppress and alleviate the occurrence of loss of alarm capability due to insufficient processing capability due to the alarm generated in burst. Further, in the communication system of the present embodiment, the relay network can suppress and alleviate the occurrence of loss of alarm capability due to insufficient processing capability due to the alarm generated in burst. Further, in the communication system of this embodiment, the alarms are once aggregated in the network monitoring target / collection device, so that transmission of the same alarms can be suppressed. As a result, it becomes easier for a worker who performs maintenance work or the like to judge the cause of the alarm as compared to the case where the alarm is received in bursts. In the communication system of the present embodiment, a communication device that does not have a monitoring function can be used as a monitoring target device by setting an alarm transmission destination, so that the network environment can be configured flexibly. it can. As described above, in the communication system of the present embodiment, it is possible to reliably detect a failure and grasp the cause of an alarm without increasing the network load.

  In the monitoring collection signal of the second embodiment, only one layer is specified, but a plurality of layers may be specified. When a plurality of hierarchies are designated by the monitoring collection signal, for example, an operator sets hierarchized information in which the communication device 10 is hierarchized in the network monitoring device 20.

  FIG. 10 shows an example of the configuration of the monitoring collection signal hierarchized in a plurality of hierarchies. In FIG. 10, the network monitoring device 20 is set as the uppermost layer, and the communication devices 10 are multilayered in order from the first layer. In FIG. 10, “S_1”, “N_1”, “N_1_1”, and the like are set with information for identifying each device. As information for identifying each device, for example, the IP address of each device is used. The information for identifying each device may be other than the IP address. When each communication device 10 receives the multi-layered information as the monitoring collection signal, each communication device 10 transmits the information of the lower layer of its own device as the monitoring collection signal to the communication device 10 selected as the lower layer device. For example, when a worker or the like sets a multi-layered configuration of the communication devices 10 based on the configuration of the network 40, it becomes easy to grasp the content of the failure when the failure occurs.

  Further, in the communication system according to the second embodiment and the example of FIG. 10, only one network monitoring device 20 is provided, but a plurality of devices in each layer including the network monitoring device 20 may be provided. . FIG. 11 shows an example of the configuration of the monitoring collection signal when the communication system includes two network monitoring devices 20. In FIG. 11, “S_1”, “N_1”, “N_1_1”, and the like are set with information for identifying each device.

  In the example of FIG. 11, a plurality of alarm transmission destinations of the communication devices 10 in each layer are set. For example, “N_1” in the first layer transmits an alarm to two network monitoring devices 20 of “S_1” and “S_2”. The communication devices 10 in the second and subsequent layers are also set to send an alarm to the two communication devices 10 in the upper layer. In this way, by providing a redundant configuration for sending alarms to a plurality of devices, it becomes possible to transmit failure information more reliably. Moreover, when it is set as the structure which sends a warning to a some apparatus, it sets so that each communication apparatus 10 may transmit a warning only to the apparatus set to the upper layer rather than an own apparatus. Generation of an alarm loop can be avoided by setting an alarm to be transmitted only to an apparatus set higher than the own apparatus.

  In the communication system according to the second embodiment, after the monitoring collection signal is transmitted and the hierarchization information is set, the monitoring collection signal is periodically transmitted to check whether the lower layer apparatus is operating normally. . Instead of such a method of periodically sending the monitoring collection signal, another signal that can confirm that the apparatus is operating may be used. When the communication device 10 to be monitored does not change, the network monitoring device or the upper layer communication device 10 only needs to be able to recognize the alive state of the lower layer communication device 10, and therefore, by sending a alive signal instead of the monitoring collection signal Periodic checks can be performed. As the life / death signal, for example, a signal can be used based on ICMP (Internet Control Message Protocol). Further, the monitoring collection signal may be encrypted for security measures. In addition to the information of the lower-layer communication device 10 and the like, information necessary for connecting to the device such as an account and a password may be added to the monitoring collection signal.

DESCRIPTION OF SYMBOLS 1 Communication means 2 Failure detection means 3 Control means 10 Communication apparatus 11 1st communication apparatus 12 2nd communication apparatus 13 3rd communication apparatus 14 4th communication apparatus 20 Network monitoring apparatus 21 Communication part 22 Communication monitoring part 23 Communication Device management unit 31 Communication unit 32 Monitoring control unit 33 Information management unit 34 Fault detection unit 40 Network

Claims (10)

Communication means for communicating with each of a plurality of communication devices including a first communication device and a second communication device via a network;
Fault detection means for detecting the occurrence of a fault on the network;
When receiving information addressed to its own device indicating that a failure has been detected from the second communication device via the communication means, the failure information detected by the failure detection means, and the second communication device Control means for transmitting the received failure information to the first communication device via the communication means;
A communication apparatus comprising: A determination means for determining whether or not the second communication device can be monitored when receiving a monitoring request signal for requesting monitoring of the second communication device from the first communication device;
When the determination unit determines that the second communication device can be monitored, the control unit uses the information obtained by hierarchizing information on the second communication device and the own device as hierarchized information. The communication apparatus according to claim 1, wherein the communication apparatus transmits to the communication apparatus via the communication unit. The control unit transmits a request for monitoring information on a failure detected by the third communication device on the network to the second communication device via the communication unit, and from the second communication device. When information indicating that the failure information detected by the third communication device can be monitored is sent,
The information obtained by hierarchizing information on the third communication device, the second communication device, and the own device is transmitted as the hierarchized information to the first communication device via the communication unit. Item 3. The communication device according to Item 2.   The communication apparatus according to claim 3, wherein the control unit determines a transmission destination of failure information based on the hierarchical information.   When receiving a monitoring request signal for requesting monitoring of the second communication device from a fourth communication device on the network, the control means uses the failure information received from the second communication device as the first information. 5. The communication apparatus according to claim 2, further transmitting to four communication apparatuses.   When the control means receives information indicating that a failure has been detected from the fifth communication device on the network via the communication means, the control means receives the failure information received from the fifth communication device. The communication apparatus according to claim 1, further transmitting to the first communication apparatus via a communication unit. A monitoring device having means for outputting information on a failure on the network, and means for communicating via the network;
A communication device according to any one of claims 1 to 6,
The communication device uses the monitoring device as the first communication device, and transmits the failure information detected by the failure detection unit and the failure information received from the second communication device via the communication unit. A communication system characterized by transmitting to the monitoring device. Communicating with each of a plurality of communication devices including a first communication device and a second communication device via a network;
Detecting the occurrence of a failure on the network;
When receiving information addressed to the own device indicating that a failure has been detected from the second communication device, information on the failure detected by the own device, and failure information received from the second communication device, A communication method comprising transmitting to the first communication device. When receiving a monitoring request signal for requesting monitoring of the second communication device from the first communication device, determining whether or not the second communication device can be monitored;
When it is determined that the second communication device can be monitored, information obtained by hierarchizing the information of the second communication device and the own device is transmitted to the first communication device as hierarchized information. The communication method according to claim 8. A request for monitoring information on a failure detected by the third communication device on the network is transmitted to the second communication device, and the third communication device can be monitored from the second communication device. When you receive information indicating that
The communication according to claim 9, wherein information obtained by hierarchizing information on the third communication device, the second communication device, and the own device is transmitted to the first communication device as the hierarchized information. Method.

Images