JP3398682B2 - Method and system for managing redundant configuration in communication system - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is provided with a plurality of logical network monitoring devices composed of 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 the communication system.

[0002]

2. Description of the Related Art In a network monitoring system for constructing a communication network, as load distribution or function distribution progresses, spare hardware is often provided in order to improve reliability, and a redundant configuration is often used as a system. Came to be done. 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 that make up the system
One of 00 and 30N serves as a master and each of the other network monitoring devices serves as a slave, and functions as a system are realized in cooperation with each other. In the network monitoring system shown in FIG. 10, any of the network monitoring devices that make up 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 redundant 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 redundant configuration of the conventional network monitoring system shown in FIG. 10 is only a redundant configuration of a plurality of network monitoring devices, and a communication line (LAN: Local Are) connecting the network monitoring devices is used.
a Network) consisted of only one. Therefore, even if all network monitoring devices are operating normally, if the line L111 (L112, L11N) connecting the network monitoring device and LAN # 1 is disconnected or LAN # 1 itself fails, the network monitoring device However, there is a drawback in that the system is reconfigured or a system failure occurs, and the system operation must be interrupted to recover the system, which lowers the throughput of the system.

[0004]

As described above, the redundant configuration of the conventional network monitoring system is only the network monitoring devices constituting the system, and the communication path is a path for data exchange between the network monitoring devices. There is no redundant configuration. That is, the redundant configuration including the communication path is not considered.
Further, even if the redundant configuration of the communication path is taken, even if the failed communication path is switched to the backup communication path, the optimum device configuration is not obtained. 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 are poor, and the reliability is poor.

The present invention has been made in view of the above circumstances. A plurality of logical network monitoring devices each including a plurality of network monitoring devices are provided, and all the network monitoring devices configuring the logical network monitoring device include a plurality of network monitoring devices. In a communication system connected via a communication path, a communication path to which the largest number of logical network monitoring devices are connected is selected, and the configuration of the network monitoring system is determined based on the selection of this communication path. It is an object of the present invention to provide a redundant configuration management method and system in a communication system in which a network monitoring device including a route is provided with a redundant configuration, and an optimal system configuration for the system can be taken with the switched communication route.

[0006]

A redundant configuration management method in a communication system according to the present invention provides a plurality of logical network monitoring devices composed of a plurality of network monitoring devices and monitors all the networks configuring the logical network monitoring devices. In a communication system in which devices are connected via a plurality of communication channels, one network monitoring device serving as a master is selected from all of the logical network monitoring devices, and the selected network monitoring device has a plurality of communication channels. Select and switch the communication path to which the largest number of network monitoring devices are connected based on the connection status information, and determine the system configuration of each network configuration device that constitutes the logical network monitoring device according to the system configuration information prepared in advance. It is characterized by doing.

Further, the system configuration information including a predefined line configuration is obtained, and the connection state of a communication line connected to another network monitoring device is monitored via the communication line to which the own network monitoring device is connected. And the step of editing the monitored result, receiving it as communication line connection information and comparing it with the content received last time, and establishing a communication path that can communicate the communication line connection information when there is a change in the communication line connection information. Obtain the communication line connection information of all the network monitoring devices that make up the system and the process of transferring to another network monitoring device using
The process of selecting the 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 communication line currently used, notify other network monitoring devices to that effect. Then, the process of determining the communication line to be used by the system when the selected communication line matches in all network monitoring devices, and notifying the network monitoring device of the communication line determined here as a line switching notification It is also characterized in that it consists of steps.

A redundant configuration management system in a communication system according to the present invention comprises a logical network monitoring device composed of a plurality of network monitoring devices and a plurality of network monitoring devices constituting the logical network monitoring device. A communication channel and one network monitoring apparatus serving as a master are selected from all the logical network monitoring apparatuses, and the communication channel to which the largest number of network monitoring apparatuses are connected is selected based on the connection state information with the plurality of communication channels. And a redundant configuration management device in the network monitoring device for selecting and switching and determining the system configuration of each network configuration device that constitutes the logical network monitoring device in accordance with system configuration information prepared in advance. The redundant configuration management device cooperates with a device redundancy management configuration unit that determines the system configuration of individual network monitoring devices that make up the logical network monitoring device according to the system configuration information, and other network monitoring devices, and has the largest number of logical network monitoring devices. A communication path redundancy management unit that selects a communication path that is connected to each other, and a communication path that is connected to another network monitoring device via all communication paths that are connected to the network monitoring device based on the line configuration information. A communication path monitoring unit that monitors the connection status of the network and notifies other network monitoring devices of this communication path connection information using a communication path that allows communication when the communication path connection information received as a result of monitoring changes. Consists of.

In the above-described configuration, the redundant configuration management method and system of the present invention is constructed by a logical network monitoring device composed of a plurality of network monitoring devices, and one network monitoring device of each logical network monitoring device is the active system. In this case, the other network monitoring device is configured as a standby system. Also, each network monitoring device is connected to a plurality of LAN lines, for example, via a plurality of lines. When one of all network monitoring devices becomes a master, the others become slaves, and the master network monitoring device determines the system configuration of each network monitoring device that constitutes the logical network monitoring device. The master decision procedure at system startup is that each network monitoring device becomes a temporary master first, communicates with each other using the same temporary LAN, and masters from within the network monitoring device started within a certain time according to the system configuration information. To decide. When a LAN switching notification is received within this fixed time, the master is re-determined using this LAN, and the new master reconfigures the system of each network monitoring device that constitutes the logical network monitoring device.

According to the present invention, a redundant configuration of the network monitoring device and the communication path can be obtained, and as a result, the reliability can be improved. Also,
Since the configuration is such that the communication path with the largest number of logical monitoring devices is automatically selected and notified, the optimum system configuration for the system can be taken with the switched communication path. Therefore, it is possible to provide a system that is highly flexible and expandable.

[0011]

FIG. 1 is a block diagram showing an embodiment of the present invention. The redundant configuration management system of the present invention comprises a logical network monitoring device 7 composed of a plurality of network monitoring devices 1-6.
8 and 9 are provided in a plural number, and all the network monitoring devices 1 to 6 forming the logical network monitoring devices 7, 8 and 9 have a plurality of communication paths LAN # 1, LA.
N # 2, ... Connected alternately via LAN # N. The logical network monitoring device 7 is composed of network monitoring devices 1 and 2, and the logical network monitoring devices 8 and 9 are also composed of network monitoring devices 3 and 4 and network monitoring devices 5 and 6, respectively. Each logical network monitoring device 7, 8, 9
Thus, when one network monitoring device is the active system, the other network monitoring device is a standby system. Each network monitoring device 1
~ 6 are multiple LAN lines (LAN) via multiple lines L11 to L16
# 1, LAN # 2, ... LAN # N). When one of all network monitoring devices becomes a master, the others become slaves, and the master network monitoring device determines the system configuration of each network monitoring device that constitutes the logical network monitoring device. The master decision procedure at system startup is that each network monitoring device becomes a temporary master first, communicates with each other using the same temporary LAN, and masters from within the network monitoring device started within a certain time according to the system configuration information. To decide. When a LAN switching notification is received within this fixed time, the master is re-determined using this LAN, and the new master reconfigures the system of each network monitoring device that constitutes 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 redundancy 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 whole network monitoring device becomes the master, the other devices become slaves, and the device redundant configuration management unit 11 becomes the master.
Determines the system configuration of each network monitoring device that constitutes the logical network monitoring device. The LAN redundant configuration management units 12 and 22 cooperate with LAN redundant configuration management of other network monitoring devices to select a LAN line to which the largest number of logical network monitoring devices are connected. Also,
The system configuration information storage units 13 and 23 retain the same information in all the network monitoring devices 1 to 6 that compose the system.

Based on the line configuration information, the multi-LAN monitoring unit 121 determines all communication channels (LAN #
1 to LAN # N) and is connected to another network monitoring device
The connection status of LAN # 1 to LAN # N is constantly monitored and the monitoring result is displayed.
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 self-device, the multi-LAN control unit 122 uses the communicable communication path to connect the other network monitoring devices 2 to 6 with each other.
The LAN control unit 222 or the like notifies this LAN connection information. When LAN connection information is received from the multi-LAN control unit 122 such as the multi-LAN control units 222 of the other network monitoring devices 2 to 6, the information can be further communicated to the multi-LAN control units of the other network monitoring devices 3 to 6. Transfer via the road. As a result, it is possible to mutually obtain LAN connection information even between devices that do not have a direct communication path.

After obtaining the LAN connection information of each of the network monitoring devices 1 to 6 that make up the system, the largest number of LAN connection information is recorded based on this information and the system configuration information stored in the system configuration information storage units 13 and 23. 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 devices 2 to 6 by the same method as the LAN connection information. This value is all network monitoring devices 1-6
When the two match, the LAN used by the system is determined. When the system LAN is determined, the multi-LAN control unit 122
Sends a LAN switching notification to the device redundancy configuration management unit 11 of its own device.
Output to. The multi-LAN control unit 222 of another device operates in the same manner. The redundant configuration management units 11 and 21 of the respective network monitoring devices 1 to 6 which have received the LAN switching notification communicate with each other using the selected LAN and follow the system configuration information of the system configuration information storage units 13 and 23. Determine the master. As a result, the device redundancy configuration management unit 1 of the network monitoring device 1
1 serves as a 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 is composed of device configuration information, line configuration information and system configuration information, and all network monitoring devices have the same information. All network monitoring devices that make up the system are registered in the device configuration information. An IP address of the LAN to which each network monitoring device is connected is registered in the line configuration information. In the system configuration information, the algorithm of the system configuration of each network monitoring device is registered.

3 to 7 are diagrams quoted to explain 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 ( 222) Operation flow, multi-LAN
The LAN connection information reception process from the monitoring unit 121 and the LAN connection information reception process 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 flow charts shown in FIGS. 3, 4, 5, 6, and 7 and the data structure of the system configuration information shown in FIG. It will be described in detail with reference. Multi-LAN monitoring unit 121 (221) and multi-LAN control unit 122 (2
22) performs the same operation in each network monitoring device 1-6. 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 is based on the device configuration information and line configuration information shown in FIG. 8 stored in the system configuration information storage unit 13 and is connected to the own network monitoring device.
The connection states of LAN # 1 to LAN # N connected to other network monitoring devices 2 to 6 via N # 1 to LAN # N are 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). The multi-LAN control unit 122, as shown in FIG.
Connection information reception process (routine S2) Other LAN connection information reception process from multi-LAN control unit 122 (routine S3),
The new LAN number notification reception process (routine S4) from the other multi-LAN control unit 122 is configured. When the multi-LAN control unit 122 receives the LAN connection information from the multi-LAN monitoring unit 121 in its own device, the multi-LAN control unit 122 compares it with the content of the LAN connection information received last time (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 uses the communicable communication path to notify the multi-LAN control units 222 of the other network monitoring devices 2 to 6 of this LAN connection information. (Step S22 of FIG. 5). When the multi-LAN control units 222 of the other network monitoring devices 2 to 6 receive the LAN connection information from the multi-LAN control unit 122, the communication can communicate the information to the multi-LAN control units of the other network monitoring devices 2 to 6. Transfer via route (steps S30 and S3 in FIG. 6)
1). As a result, LAN connection information can be obtained mutually even between network monitoring devices that do not have a direct communication path with which communication is possible.
After obtaining the LAN connection information of each of the network monitoring devices 1 to 6 that make up 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. Select a LAN (steps S32 and S33 in FIG. 6).

If the selected new LAN number is different from the currently used LAN number, the multi-L of other network monitoring devices 2 to 6 is used.
Notify 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 by the same method as the LAN connection information to obtain the LAN number selected by the multi-LAN control unit 222 of the other network monitoring devices 2 to 6 (step S4 in FIG. 7).
0). When this value is the same in all network monitoring devices 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 switching notification to the device redundancy configuration management unit 11 of the private network monitoring device (step S in FIG. 7).
43). Multi-LAN control unit 22 of other network monitoring devices 2-6
2 operates similarly. The redundant configuration management units 11 and 21 of the respective network monitoring devices 1 to 6 that have received this LAN switching notification communicate with each other using this selected LAN and perform system configuration information such as system configuration information storage units 13 and 23. The master is determined according to the description order of the device configuration information in. As a result, the device redundant 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 of FIG. 1 is adopted. At this time, when the line L11 of the network monitoring device 1 is disconnected or broken and communication with the LAN # 1 is disabled, the device redundancy configuration management units 11 and 21 of the respective network monitoring devices 1 to 6 use the multi-LA.
It waits for a certain period of time for the LAN switching notification from the N control units 122 and 222. The multi-LAN control units 122 and 222 are multi-LAN
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, LAN # 2 is newly selected and a LAN switching notification is issued to the devices of the own network monitoring devices 1 to 6. Notify the redundant configuration management units 11 and 21. The device redundancy configuration management units 11 and 21 communicate with each other using LAN # 2, and determine the master according to the device configuration information description order 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 the master and reconfigures the system of the network monitoring device using LAN # 2 (in this example, LAN #
Only the switch to 2 does not change the configuration of the master and network monitoring equipment).

As another specific example, FIG. 9 shows an example of a line failure in a system composed of three LANs. When all the network monitoring devices 1 to 6, LAN # 1 to # 3, and lines L11 to L36 are normal, LAN # 1 is selected and the same system configuration as in FIG. 1 is adopted.
Here, LAN # 1 goes down and lines L11, L12, L13, L1
4, L15, L16 can not communicate, at the same time lines L23, L24, L31,
The case where L34 and L36 are cut is illustrated.
In the figure, the X mark indicates the line disconnection or LAN failure. In this example, first, the device redundancy configuration management units 11 and 21 of the respective network monitoring devices 1 to 6 are connected to the multi-LAN control units 122 and 222.
Wait for a certain period of time from LAN switch notification. The multi-LAN control units 122 and 222 are connected to the multi-LAN monitoring units 121 and 221.
LAN connection information and system configuration information storage units 13 and 2 from
LAN # 3 is newly selected based on the system configuration information of 3, and L
The 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 of the system configuration information shown in FIG. Determine the master according to the order. As a result, the device redundancy configuration management unit 2 of the network monitoring device 2
1 becomes the master, and reconfigures the system of the network monitoring device using LAN # 3 (in this case, 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 configuring this logical network monitoring device are connected via a plurality of communication paths. In the communication system to be connected, by selecting the communication path to which the logical network monitoring device is most connected, and determining the configuration of the network monitoring system based on the selection of this communication path, the network monitoring device and the communication path are connected. It is possible to adopt the redundant configuration of and the optimal system configuration for the system with the switched communication path.

[0022]

As described above, according to the present invention, not only the network monitoring device but also the redundant structure of the communication path can be provided, and the reliability of the system can be improved. In addition, it is possible to improve the flexibility and expandability of the system by implementing the method that selects the LAN to which the largest number of logical network monitoring devices are connected and determines the system configuration of the logical network monitoring device based on this communication path. I can.
Further, 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 the optimum system configuration for the system with the switched communication path.

[Brief description of 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 quoted for explaining the operation of the exemplary embodiment of the present invention, and is a flowchart showing the flow of the operation of the multi-LAN monitoring unit in FIG.

FIG. 4 is a diagram quoted for explaining the operation of the exemplary embodiment of the present invention, and is a flowchart showing the flow of the operation of the multi-LAN control unit in FIG.

FIG. 5 is a diagram quoted for explaining the operation of the exemplary embodiment of the present invention, in which L from the multi-LAN monitoring unit in FIG.
It is the figure which showed the flow of the AN connection information reception process with the flowchart.

FIG. 6 is a diagram quoted for explaining the operation of the exemplary embodiment of the present invention, and is a flowchart showing a flow of LAN connection information reception processing from the multi-LAN supervisory control unit in FIG.

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

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

FIG. 9 is a diagram cited to explain the operation of the exemplary embodiment of the present invention, and is a diagram showing a specific example of the exemplary embodiment of the present invention.

FIG. 10 is a block diagram showing 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 (56) Reference JP-A-4-145742 (JP, A) JP-A-2000-181823 (JP, A) JP-A-5-145966 (JP, A) JP-A-56-93447 (JP, A) JP 5-48629 (JP, A) JP 8-251213 (JP, A) JP 6-232877 (JP, A) JP 10-327176 (JP, A) Patent 3166127 (JP, B2) Japanese Patent Publication 8-24299 (JP, B2) (58) Fields investigated (Int.Cl. ⁷ , DB name) H04L 12/24 H04L 12/40

Claims (7)

(57) [Claims] 1. A communication system in which a plurality of logical network monitoring devices each including a plurality of network monitoring devices are provided, and all the network monitoring devices configuring the logical network monitoring device are connected via a plurality of communication paths, A master network monitoring device is selected from all the logical network monitoring devices, and the selected network monitoring device is connected to the largest number of network monitoring devices based on each connection state information with a plurality of communication paths. Select the communication path you are using to switch,
A redundant configuration management method in a communication system, characterized in that the system configuration of each network configuration device constituting a logical network monitoring device is determined according to system configuration information prepared in advance using this communication path. 2. A system prepared for each network monitoring device when the system is started up, in which each network monitoring device constituting the logical network monitoring device serves as a master and alternately communicates using a temporary communication path. According to the configuration information of the above, the master is determined from the network monitoring device that has started up within a certain time, and the network monitoring device that has become the master receives the communication path switching notification based on the failure etc. within this certain time. 3. A master network monitoring device is re-determined by using, 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. Redundant configuration management method in the communication system described. 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. Select one master network monitoring device from among the devices, select and switch the communication route to which the largest number of network monitoring devices are connected based on the connection status information with multiple communication routes, and use this communication route And a redundant configuration management device in the network monitoring device for determining the system configuration of each network configuration device that constitutes the logical network monitoring device according to the system configuration information prepared in advance. Configuration management system. 4. The redundant configuration management device cooperates with a device redundancy management configuration unit that determines the system configuration of individual network monitoring devices that make up the logical network monitoring device according to system configuration information, and at most the other network monitoring device. Connects to other network monitoring devices via the communication path redundancy management unit that selects the communication path to which the logical network monitoring device is connected and all communication paths that are connected to the network monitoring device based on the line configuration information. The connection status of the communication path being monitored is monitored, and when there is a change in the communication path connection information received as a result of monitoring, this communication path connection information is sent to other network monitoring devices using the communication path that can be used for communication. 4. The redundant configuration management system in the communication system according to claim 3, further comprising a communication path monitoring unit. 5. A storage device in which system configuration information including device configuration information, line configuration information and system configuration information is registered, and all 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 network monitoring devices constituting the logical network monitoring device are used in a communication system connected through a plurality of communication paths. And obtaining system configuration information including a predefined line configuration, and monitoring the connection state of a communication line connected to another network monitoring device via the communication line to which the own network monitoring device is connected. , The process of editing the monitoring result, receiving it as the connection information of the communication line and comparing it with the contents received last time, and using a communication path that can communicate the communication line connection information when there is a change in the communication line connection information The process of transferring to another network monitoring device and the communication line connection information of all the network monitoring devices that make up the system are acquired, and the communication line to which the largest number of logical network monitoring devices are connected based on the system configuration information. If the selected process and the selected communication line are different from the currently used communication line, notify the other network monitoring device to that effect, and the system will be activated when the selected communication line matches in all network monitoring devices. A redundant configuration management method in a communication system, which comprises a step of determining a communication line to be used and a step of notifying the network monitoring device of the communication line determined here as a line switching notification. 7. The communication line switching notice is received, the communication lines are mutually communicated using the selected communication line, the network monitoring device to be the master is determined according to the system configuration information defined in advance, and the network monitoring device becomes the master. 7. The redundant configuration management method in a communication system according to claim 6, wherein the network monitoring device determines the system configuration of the network monitoring device in the logical network monitoring device based on the system configuration information.