JP2000244496A - Method and system for managing redundant configuration in communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain a redundant configuration of a network monitor and a communication line and a system configuration optimum to a system with a selected communication line. SOLUTION: In a communication system adopting this redundant configuration management method, logical network monitors 7, 8, 9 consisting of a plurality of network monitors 1-6 are provided and all the network monitors configuring the logical network monitors are interconnected by a plurality of communication lines (LAN#1-N#3). A master network monitor is selected among all the logical network monitors, the selected network monitor selects a communication line to which the maximum number of the network monitors are connected on the basis of connection state information with a plurality of the communication lines by a LAN redundant configuration management section of the network monitors, and decides a system configuration of the individual network configuration device configuring the logical network monitor according to the system configuration information prepared in advance.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention provides a plurality of logical network monitoring devices including a plurality of network monitoring devices, and all the network monitoring devices constituting the logical network monitoring device are connected via a plurality of communication paths. The present invention relates to a redundant configuration management method and system in a communication system suitable for use in such a communication system.

[0002]

2. Description of the Related Art In a network monitoring system for constructing a communication network, as the load distribution or the function distribution progresses, spare hardware is often provided in order to improve the reliability, and a redundant configuration is frequently adopted as a system. Began to take place. FIG. 10 shows a configuration example of a network monitoring system in which a plurality of network monitoring devices are connected via a single communication path. Network monitoring devices 100 and 2 constituting the system
One of the network monitoring devices 00 and 30N is a master, and each of the other network monitoring devices is a slave, and functions as a system in cooperation with each other. In the network monitoring system shown in FIG. 10, any of the network monitoring devices constituting the system can be a master,
For example, the network monitoring device 1 that has become the master includes the network monitoring devices 200 and 30N that have become slaves under the control of the device redundancy configuration management unit 111 based on the system configuration information registered in the system configuration information storage unit 112. Determine the system configuration as a network monitoring system.

The conventional network monitoring system shown in FIG. 10 has a redundant configuration consisting of only a plurality of network monitoring devices, and a communication line (LAN: Local Are) connecting the network monitoring devices.
a Network) had only one. Therefore, even if all the network monitoring devices are operating normally, if the line L111 (L112, L11N) connecting the network monitoring device and LAN # 1 is disconnected or a failure occurs in the LAN # 1 itself, However, there is a drawback that the reconfiguration of the system occurs, the operation of the system must be interrupted to recover from a system failure, and the throughput of the system decreases.

[0004]

As described above, the redundant configuration of the conventional network monitoring system is only the network monitoring device constituting the system, and the communication path which is a path for data exchange between the network monitoring devices. There is no redundant configuration. That is, a redundant configuration including a communication path is not considered.
Further, even if a redundant configuration of the communication path is obtained, an optimum apparatus configuration will not be obtained even if the communication path that has become a failure is switched to a spare communication path. The reason is that the optimum device configuration in the switched communication path is not taken into consideration.
Therefore, the flexibility and expandability of the system were poor, and the reliability was poor.

The present invention has been made on the basis of the above circumstances, and a plurality of logical network monitoring devices comprising a plurality of network monitoring devices are provided, and all the network monitoring devices constituting the logical network monitoring device are provided with a plurality of network monitoring devices. In a communication system connected via a communication path, a logical network monitoring device selects a communication path to which the network is most connected, and determines the configuration of the network monitoring system based on the selection of the communication path, thereby enabling communication. It is an object of the present invention to provide a method and system for managing a redundant configuration in a communication system in which a network monitoring device including a path has a redundant configuration and a system configuration optimal for the system can be obtained with the switched communication path.

[0006]

According to a redundant configuration management method in a communication system according to the present invention, a plurality of logical network monitoring devices each including a plurality of network monitoring devices are provided, and all the network monitoring devices constituting the logical network monitoring device are monitored. In a communication system in which devices are connected via a plurality of communication paths, one network monitoring apparatus serving as a master is selected from all the logical network monitoring apparatuses, and the selected network monitoring apparatus is connected to a plurality of communication paths. Selects and switches the communication path to which the largest number of network monitoring devices are connected based on the connection status information with the network, and determines the system configuration of the individual network components configuring the logical network monitoring device according to the system configuration information prepared in advance. It is characterized by doing.

[0007] In addition to obtaining system configuration information including a pre-defined line configuration, monitoring the connection status of a communication line connected to another network monitoring device via a communication line to which the own network monitoring device is connected. And a step of editing the monitored result, receiving it as communication line connection information and comparing it with the previously received content, and, when there is a change in the communication line connection information, establishing a communication path capable of communicating the communication line connection information. Using and transferring to another network monitoring device, and obtaining communication line connection information of all network monitoring devices constituting the system,
A step of selecting a communication line to which the largest number of logical network monitoring devices are connected based on the system configuration information; and, if the selected communication line is different from the currently used communication line, notifying the other network monitoring devices accordingly. Determining the communication line to be used by the system when the selected communication line matches all the network monitoring devices, and notifying the determined network communication line to its own network monitoring device as a line switching notification. And a step.

[0008] The redundant configuration management system in the communication system according to the present invention comprises a plurality of network monitoring devices each comprising a plurality of network monitoring devices and a plurality of network monitoring devices constituting the logical network monitoring device being connected to each other. A communication path and one network monitoring apparatus serving as a master are selected from all the logical network monitoring apparatuses, and a communication path to which the most network monitoring apparatuses are connected is determined based on connection state information with a plurality of communication paths. And a redundant configuration management device in the network monitoring device that determines the system configuration of each network configuration device that configures the logical network monitoring device according to system configuration information prepared and switched in advance. The redundant configuration management device is configured to determine the system configuration of each network monitoring device constituting the logical network monitoring device according to the system configuration information. And a communication path connected to another network monitoring apparatus via all communication paths connected to the network monitoring apparatus based on the circuit configuration information. A communication path monitoring unit that monitors the connection state of the communication path and notifies another network monitoring apparatus of the communication path connection information using a communication path that can communicate when there is a change in the communication path connection information received as a result of the monitoring. Consists of

In the above-described configuration, the redundant configuration management method and system of the present invention are constructed by a logical network monitoring device comprising a plurality of network monitoring devices, and one of the logical network monitoring devices is one of the active system. In such a case, the other network monitoring device is configured to be a standby system. In addition, each network monitoring device is connected to a plurality of, for example, LAN lines via a plurality of lines. When one of the network monitoring devices becomes a master, the other becomes a slave, and the network monitoring device that has become the master determines the system configuration of the individual network monitoring devices constituting the logical network monitoring device. The master determination procedure at the time of system startup is as follows. First, each network monitoring device itself becomes a temporary master, communicates with each other using the same temporary LAN, and starts mastering within the network monitoring device within a certain time according to the system configuration information. To determine. If the LAN switching notification is received within this fixed time, the master is re-determined using this LAN, and the new master reconfigures the individual network monitoring devices constituting the logical network monitoring device.

According to the present invention, a redundant configuration of a network monitoring device and a communication path is obtained, and as a result, reliability is improved. Also,
Since the configuration is such that the communication path to which the logical monitoring device is most frequently connected is automatically selected and notified, a system configuration optimal for the system can be obtained with the switched communication path. Therefore, a system with high flexibility and expandability can be provided.

[0011]

FIG. 1 is a block diagram showing an embodiment of the present invention. The redundant configuration management system according to the present invention includes a logical network monitoring device 7 including a plurality of network monitoring devices 1 to 6,
8 and 9 are provided, and all the network monitoring devices 1 to 6 constituting the logical network monitoring devices 7, 8 and 9 are provided with a plurality of communication paths LAN # 1 and LA.
N # 2,... Are connected alternately via LAN # N. The logical network monitoring device 7 includes network monitoring devices 1 and 2, and the logical network monitoring devices 8 and 9 also include network monitoring devices 3 and 4 and network monitoring devices 5 and 6, respectively. Each logical network monitoring device 7, 8, 9
When one network monitoring device is the active system, the other network monitoring device is configured to be the standby system. Each network monitoring device 1
6 to multiple LAN lines (LANs) via multiple lines L11 to L16.
# 1, LAN # 2, ... LAN # N). When one of the network monitoring devices becomes a master, the other becomes a slave, and the network monitoring device that has become the master determines the system configuration of the individual network monitoring devices constituting the logical network monitoring device. The master determination procedure at the time of system startup is as follows. First, each network monitoring device itself becomes a temporary master, communicates with each other using the same temporary LAN, and starts mastering within the network monitoring device within a certain time according to the system configuration information. To determine. If the LAN switching notification is received within this fixed time, the master is re-determined using this LAN, and the new master reconfigures the individual network monitoring devices constituting the logical network monitoring device.

FIG. 2 is a block diagram showing the configuration of each network monitoring device shown in FIG. Therefore, the network monitoring devices 3 to 6 shown in FIG. 1 have the same configuration as the network monitoring device 2 shown here.
In FIG. 2, the network monitoring device 1 includes a device redundancy configuration management unit 1
1, a LAN redundant configuration management unit 12, and a system configuration information storage unit 13. The LAN redundant configuration management unit 12
Further, it comprises a multi-LAN monitoring unit 121 and a multi-LAN control unit 122. The device redundancy configuration management units 11 and 21 are masters or slaves. When one device redundant configuration management unit in the entire network monitoring device becomes the master, the other devices become slaves, and the device redundant configuration management unit 11 that has become the master
Determines the system configuration of each network monitoring device constituting the logical network monitoring device. The LAN redundant configuration management units 12 and 22 cooperate with the LAN redundant configuration management of the other network monitoring devices and select the LAN line to which the most logical network monitoring devices are connected. Also,
The system configuration information storage units 13 and 23 hold the same information in all the network monitoring devices 1 to 6 that configure the system.

[0013] The multi-LAN monitoring unit 121 receives all communication paths (LAN #) connected to the network monitoring apparatus based on the line configuration information.
1 to LAN # N) and connected to other network monitoring devices
The connection status of LAN # 1 to LAN # N is constantly monitored, and the monitoring result is
The multi-LAN control unit 122 is notified as LAN connection information.
When there is a change in the LAN connection information received from the multi-LAN monitoring unit 121 in the own device, the multi-LAN control unit 122 uses the communicable communication path to transmit the multi-network of the other network monitoring devices 2 to 6.
The LAN control unit 222 notifies the LAN connection information. When receiving the LAN connection information from the multi-LAN control unit 122 such as the multi-LAN control unit 222 of the other network monitoring devices 2 to 6, the communication can transmit the information to the multi-LAN control unit of the other network monitoring devices 3 to 6. Transfer via road. As a result, LAN connection information can be mutually obtained even between devices having no communication path capable of directly communicating.

After obtaining the LAN connection information of each of the network monitoring devices 1 to 6 constituting the system, based on this information and the system configuration information recorded in the system configuration information storage units 13, 23, etc., the most LA to which the logical network monitoring device is connected
Select N. The selected LAN number is notified and transferred to the multi-LAN control units 222 of the other network monitoring apparatuses 2 to 6 in the same manner as the LAN connection information. This value is the total network monitoring device 1-6
When they match, the LAN used by the system is determined. When the system use LAN is determined, the multi LAN control unit 122
Sends a LAN switch notification to its own device redundancy configuration management unit 11
Output to The multi-LAN control unit 222 of the other device operates similarly. The redundant configuration management units 11 and 21 of each of the network monitoring devices 1 to 6 that have received the LAN switching notification communicate with each other using the selected LAN and follow the system configuration information in the system configuration information storage units 13 and 23. Determine the master. Thereby, the device redundancy configuration management unit 1 of the network monitoring device 1
1 becomes the master and determines the system configuration in the logical network monitoring device based on the system configuration information in the system configuration information storage unit 13.

As shown in FIG. 8, the system configuration information 13 includes device configuration information, line configuration information, and system configuration information, and all network monitoring devices have the same information. In the device configuration information, all network monitoring devices constituting the system are registered. In the line configuration information, the IP address of the LAN to which each network monitoring device is connected is registered. The algorithm of the system configuration of each network monitoring device is registered in the system configuration information.

FIGS. 3 to 7 are diagrams cited for explaining the operation of the embodiment of the present invention. The operation flow of the multi-LAN monitoring unit 121 (221) and the multi-LAN control unit 122 (FIG. 2) in FIG. 222) Operation flow, multi-LAN
The processing for receiving LAN connection information from the monitoring unit 121 and the processing for receiving LAN connection information from the multi-LAN control unit 122 are shown in flowcharts.

Next, regarding the operation of the embodiment of the present invention shown in FIGS. 1 and 2, the flowcharts shown in FIGS. 3, 4, 5, 6, and 7 and the data structure of the system configuration information shown in FIG. This will be described in detail with reference to FIG. The multi-LAN monitoring unit 121 (221) and the multi-LAN control unit 122 (2
22) performs the same operation in each of the network monitoring devices 1 to 6. Here, the multi-LAN monitoring unit 121 and the multi-LAN control unit 122 on the network monitoring device 1 will be described in detail. The multi-LAN monitoring unit 121 of the network monitoring device 1 determines the LA connected to the own network monitoring device based on the device configuration information and the line configuration information shown in FIG.
The connection status of LAN # 1 to LAN # N connected to the other network monitoring devices 2 to 6 via N # 1 to LAN # N is constantly monitored (step S10 in FIG. 3). Next, the monitoring result is edited and notified to the multi-LAN control unit 122 as LAN connection information (steps S11 and S12 in FIG. 3). As shown in FIG. 4, the multi-LAN control unit 122
Connection information reception processing (routine S2) LAN connection information reception processing from other multi-LAN control unit 122 (routine S3)
It comprises a process of receiving a new LAN number notification from the other multi-LAN control unit 122 (routine S4). Upon receiving the LAN connection information from the multi-LAN monitoring unit 121 in the own device, the multi-LAN control unit 122 compares the received LAN connection information with the content of the previously received LAN connection information (Steps S20 and S2 in FIG. 5).
1). When there is a change in the received LAN connection information, the multi-LAN control unit 122 notifies the multi-LAN control unit 222 of the other network monitoring devices 2 to 6 of the LAN connection information using a communicable communication path. (Step S22 in FIG. 5). Upon receiving the LAN connection information from the multi-LAN control unit 122, the multi-LAN control units 222 of the other network monitoring devices 2 to 6 can communicate the information to the multi-LAN control units of the other network monitoring devices 2 to 6. Via the road (steps S30 and S3 in FIG. 6)
1). As a result, LAN connection information can be mutually obtained even between network monitoring apparatuses that do not have a communicable direct communication path.
After obtaining the LAN connection information of each of the network monitoring devices 1 to 6 constituting the system, the most logical network monitoring devices are connected based on this information and the system configuration information in the system configuration information storage units 13 and 23. The current LAN is selected (steps S32 and S33 in FIG. 6).

If the selected new LAN number is different from the currently used LAN number, the multi-L
Notification and transfer to the AN control unit 222 and the like (Step S in FIG. 6)
34 and S35). The selected LAN number is obtained in the same manner as the LAN connection information by the LAN number selected by the multi-LAN control units 222 of the other network monitoring apparatuses 2 to 6 (step S4 in FIG. 7).
0). When the values match in all network monitoring apparatuses 1 to 6, the LAN used by the system is determined (step S41 in FIG. 7).
And S42). When the system use LAN is determined, the multi-LAN control unit 122 outputs a LAN switch notification to the device redundancy configuration management unit 11 of the self-network monitor (Step S in FIG. 7).
43). Multi-LAN control unit 22 of other network monitoring devices 2 to 6
2 operates similarly. The redundant configuration management units 11 and 21 of each of the network monitoring devices 1 to 6 that have received the LAN switching notification communicate with each other using the selected LAN and communicate with each other in the system configuration information storage units 13 and 23. The master is determined according to the description order of the device configuration information. As a result, the device redundancy configuration management unit 11 of the network monitoring device 1 becomes the master, and determines the system configuration of the network monitoring device in the logical network monitoring device based on the system configuration information in the system configuration information storage unit 13.

Next, a specific example will be described. 1 and 2, when all the network monitoring devices 1 to 6, LAN # 1 to #N, and lines L11 to LN2 are normal, LAN # 1 is selected and the device configuration shown in FIG. At this time, if the line L11 of the network monitoring device 1 cannot be communicated with the LAN # 1 due to disconnection or failure, the device redundancy configuration management units 11 and 21 of the network monitoring devices 1 to 6
It waits for a LAN switching notification from the N control units 122 and 222 for a certain period of time. The multi LAN control units 122 and 222
Based on the LAN connection information from the monitoring units 121 and 221 and the system configuration information in the system configuration information storage units 13 and 23, a new LAN # 2 is selected and a LAN switch notification is sent to the devices of the own network monitoring devices 1 to 6. The redundant configuration management units 11 and 21 are notified. The respective device redundant configuration management units 11 and 21 communicate with each other using LAN # 2 and determine a master according to the description order of the device configuration information of the system configuration information shown in FIG. 8 in the system configuration information storage units 13 and 23. . As a result, the device redundancy configuration management unit 11 of the network monitoring device 1 becomes a master, and reconfigures the network monitoring device system using LAN # 2 (in this example, LAN #
Only switching to 2 does not change the configuration of the master and network monitoring devices).

As another specific example, FIG. 9 shows an example of a line failure in a system constituted by three LANs. When all of the network monitoring devices 1 to 6, LAN # 1 to # 3, and lines L11 to L36 are normal, LAN # 1 is selected and has the same system configuration as FIG.
Here, LAN # 1 goes down and lines L11, L12, L13, L1
4, L15, L16 cannot communicate, and at the same time, lines L23, L24, L31,
An example is shown in which L34 and L36 are cut.
In the figure, a cross indicates a line disconnection or a LAN fault location. In this example, first, the device redundancy configuration management units 11 and 21 of each of the network monitoring devices 1 to 6 are multi-LAN control units 122 and 222.
Wait for a certain period of time for a LAN switch notification from. The multi LAN control units 122 and 222 include the multi LAN monitoring units 121 and 221
LAN connection information and system configuration information storage units 13 and 2
LAN # 3 is newly selected based on the system configuration information of
An AN switching notification is sent to the device redundancy configuration management units 11 and 21 of the own network monitoring device. The network monitoring devices 2, 3, and 5 connected to LAN # 3 communicate with each other using LAN # 3 and describe the device configuration information in the system configuration information shown in FIG. Determine the master according to the order. Thereby, the device redundancy configuration management unit 2 of the network monitoring device 2
1 becomes the master, and reconfigures the network monitoring system using LAN # 3 (in this case, as shown in FIG. 9, the network monitoring devices 2, 3, and 5 become the active system, and the network monitoring device 1, 4 and 6 are managed as failure states).

As described above, according to the present invention, a plurality of logical network monitoring devices each including a plurality of network monitoring devices are provided, and all the network monitoring devices constituting the logical network monitoring device are connected via a plurality of communication paths. In the communication system to be connected, the logical network monitoring device selects the communication path to which the network monitoring device is most connected, and determines the configuration of the network monitoring system based on the selection of the communication channel. And a system configuration optimal for the system can be obtained with the switched communication path.

[0022]

As described above, according to the present invention, not only a network monitoring device but also a redundant configuration of a communication path can be obtained, and the reliability of the system can be improved. Also, since the method for selecting the LAN to which the logical network monitoring device is most connected and determining the system configuration of the logical network monitoring device based on this communication path is realized, the flexibility and expandability of the system can be improved. Can.
Furthermore, since the multi-LAN control unit is configured to select the communication path to which the largest number of logical monitoring devices are connected, it is possible to take an optimal system configuration for the system with the switched communication path.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention.

FIG. 2 is a block diagram showing an internal configuration of the network monitoring device in FIG.

FIG. 3 is a diagram cited for explaining the operation of the embodiment of the present invention, and is a diagram showing a flow of operation of the multi-LAN monitoring unit in FIG. 2 in a flowchart.

FIG. 4 is a diagram cited for describing an operation of the embodiment of the present invention, and is a diagram showing a flow of an operation of the multi-LAN control unit in FIG. 2 in a flowchart.

FIG. 5 is a diagram cited for explaining the operation of the embodiment of the present invention, and shows L from the multi-LAN monitoring unit in FIG. 2;
FIG. 11 is a diagram illustrating a flow of an AN connection information receiving process in a flowchart.

6 is a diagram cited for explaining the operation of the embodiment of the present invention, and is a diagram showing, in a flowchart, a flow of a process of receiving LAN connection information from the multi-LAN supervisory control unit in FIG. 2;

FIG. 7 is a diagram cited for explaining the operation of the embodiment of the present invention, and is a diagram showing, in a flowchart, a flow of a new LAN number notification receiving process from the multi-LAN control unit.

FIG. 8 is a diagram showing contents (data structure) of system configuration information in FIG. 2;

FIG. 9 is a diagram cited for explaining the operation of the embodiment of the present invention, and is a diagram showing a specific example of the embodiment of the present invention.

FIG. 10 is a block diagram illustrating a configuration example of a conventional redundant configuration management system.

[Explanation of symbols]

1 (2, 3, 4, 5, 6): Network monitoring device, 7 (8, 9)
... Logic network monitoring device, LAN # 1 (# 2, #N) ... LAN line, 11
(21): Device redundancy configuration management unit, 12 (22): LAN redundancy configuration management unit, 121 (221): Multi-LAN monitoring unit
122 (222): Multi-LAN control unit.

Continuation of the front page (72) Inventor Nobuaki Shiraishi 1-4-2, Mita, Minato-ku, Tokyo NEC Communication Systems Co., Ltd. F term (reference) 5K014 CA02 FA01 5K030 MB01 MD02 MD04 MD07 5K032 EA04 EB06 EC01

Claims (7)

[Claims] 1. A communication system in which a plurality of logical network monitoring devices comprising a plurality of network monitoring devices are provided, and all network monitoring devices constituting the logical network monitoring device are connected via a plurality of communication paths, One network monitoring device to be a master is selected from all the logical network monitoring devices, and the selected network monitoring device is connected to the most network monitoring devices based on the connection state information with a plurality of communication paths. Select and switch the communication channel
A method for managing a redundant configuration in a communication system, comprising determining a system configuration of each network component device constituting a logical network monitoring device according to system configuration information prepared in advance using the communication path. 2. When a system is started, individual network monitoring devices constituting a logical network monitoring device act as masters and alternately communicate with each other using a temporary communication path. The network monitoring device that has started up within a certain time according to the configuration information determines the master, and the network monitoring device that has become the master 2. The network monitoring device serving as a master is re-determined by using the master network monitoring device, and the system configuration of each network monitoring device constituting the logical network monitoring device is determined by the re-determined master network monitoring device. A redundant configuration management method in the communication system described in the above. 3. A logical network monitoring device comprising a plurality of network monitoring devices, a plurality of communication paths connecting the individual network monitoring devices constituting the logical network monitoring device to each other, and all the logical network monitoring devices One master network monitoring device is selected from the devices, and the communication channel to which the largest number of network monitoring devices are connected is selected and switched based on connection status information with a plurality of communication channels, and this communication channel is used. And a redundant configuration management device in the network monitoring device that determines the system configuration of the individual network configuration devices constituting the logical network monitoring device according to the system configuration information prepared in advance. Configuration management system. 4. The redundant configuration management device is configured to determine a system configuration of each network monitoring device constituting a logical network monitoring device according to system configuration information, and to operate in cooperation with another network monitoring device, A communication path redundancy management unit for selecting a communication path to which the logical network monitoring apparatus is connected, and connection to other network monitoring apparatuses via all communication paths connected to the network monitoring apparatus based on the circuit configuration information Monitors the connection status of the communication path that has been set up, and notifies the other network monitoring device of this communication path connection information using a communicable communication path when there is a change in the communication path connection information received as a result of the monitoring. 4. The redundant configuration management system in a communication system according to claim 3, further comprising a communication path monitoring unit that performs the operation. 5. A storage device in which system configuration information including device configuration information, line configuration information, and system configuration information is registered, wherein all the network monitoring devices have the same system configuration information. The redundant configuration management system in the communication system according to claim 4. 6. A plurality of logical network monitoring devices comprising a plurality of network monitoring devices are provided, and all of the network monitoring devices constituting the logical network monitoring device are used in a communication system connected via a plurality of communication paths. Obtaining system configuration information including a predefined line configuration, and monitoring a connection state of a communication line connected to another network monitoring device via a communication line to which the own network monitoring device is connected; and Editing the monitored result, receiving it as communication line connection information and comparing it with the previously received contents, and using a communication path capable of communicating the communication line connection information when there is a change in the communication line connection information. A step of transferring to another network monitoring device, obtaining communication line connection information of all network monitoring devices constituting the system, and establishing a communication line to which the most logical network monitoring devices are connected based on the system configuration information. The step of selecting and, if the selected communication line is different from the communication line currently used, notifying the other network monitoring devices to that effect, and when the selected communication line matches all network monitoring devices, the system A method for managing a redundant configuration in a communication system, comprising: a step of determining a communication line to be used; and a step of notifying the communication line determined here as a line switching notification to its own network monitoring device. 7. A network monitoring device that receives the communication line switching notification, communicates with each other using a selected communication line, determines a network monitoring device to be a master according to system configuration information defined in advance, and becomes a master. 7. The method according to claim 6, wherein the network monitoring device determines a system configuration of the network monitoring device in the logical network monitoring device based on the system configuration information.