JP3685254B2 - Network monitoring system and network monitoring method in optical submarine relay cable system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a network monitoring system and a network monitoring method, and more particularly to a network monitoring system and a network monitoring method that can identify the cause of failure in an optical submarine relay cable system at each landing station.
[0002]
[Prior art]
In recent years, as the demand for international lines increases, an optical submarine relay cable system that performs data communication using cables laid on the seabed has become important. This optical submarine relay cable system performs data communication by connecting landing stations provided at each base with submarine cables such as optical fibers. For example, JP 2000-196533 discloses a large capacity. A system capable of transmitting optical signals is described.
[0003]
In such a submarine cable system, submarine repeaters are arranged at regular intervals between landing stations for long-distance transmission, and in order to improve the line quality, each submarine repeater is arranged. Stations are equipped with equipment for inspecting submarine repeaters and monitoring equipment for monitoring equipment at each landing station. By using these devices, it is possible to monitor the failure of the own station device and the failure of the submarine repeater connected to the own station.
[0004]
Then, in the network monitoring system that integrates the information of each landing station, as shown in FIG. 4, information is uploaded from the monitoring device 10 of the transmission device that constitutes each network, and the information is transferred to the upper management device 9. The network view is drawn with integration. That is, the manager of each landing station manages only the information in the landing station, and the view of the upper network management depends on the higher system.
[0005]
[Problems to be solved by the invention]
However, the network monitoring system in the conventional optical submarine relay cable system described above has the following problems.
[0006]
In other words, the administrator who works at the landing station at each base can recognize the failure that occurred in its own site by the monitoring device, but since it does not know the failure that occurred outside its own site, the communication failure on the transmission line is Even if it can be detected, the cause cannot be identified at the site where the failure is detected. In the network monitoring system having such a configuration, it is not possible to quickly cope with a failure. Therefore, it is desirable to perform not only device management but also sub-network management at each landing station.
[0007]
On the other hand, as a description of the network configuration in the optical submarine relay cable system, a system that supports power supply monitoring is disclosed. This system was devised to support the power supply start-up / down operation of each submarine repeater. Therefore, it is not possible to identify the cause of the failure, and there is a need for a system that can identify the cause of the failure.
[0008]
The present invention has been made in view of the above problems, and its main purpose is a network monitoring system capable of realizing main signal subnetwork management such as an optical submarine relay cable and further management of the entire main signal network. And providing a network monitoring method.
[0009]
[Means for solving problems]
To achieve the above object, a network monitoring system of the present invention, a plurality of land lifting stations are connected by submarine cable via a submarine repeater to each of the RikuYokyoku, wherein an alarm by device failure RikuYokyoku A submarine cable terminating device that detects two types of alarms due to a fault in a nearby submarine repeater ; an inspection device that inspects the submarine repeater; and a monitoring device that monitors devices in the landing station A network monitoring system in an optical submarine relay cable system, wherein the monitoring devices of the landing stations are connected to each other via a data communication network, and each of the monitoring devices is connected to the own landing station. the notified from the terminal device, and means for transmitting the alarm generated by at least one of JiRikuYo station or JiRikuYo station the submarine repeater near the sent by other land fried station warning Receiving information from said alarm information, means for obtaining identifying an alarm and based on the submarine repeater failure of the other alarm and the other land near lifting station apparatus based on the failure of the landed station, the And means for specifying the cause of the failure based on the alarm .
[0010]
In the present invention, by performing data communication between the monitoring devices of each of the landing stations via the data communication network, in each of the monitoring devices, the landing station facing the own landing station The section between can be configured to be monitored.
[0011]
Further, in the present invention, by performing data communication between the monitoring devices of each of the landing stations via the data communication network, each of the monitoring devices has a network of the entire optical submarine relay cable system. It is also possible to adopt a configuration in which the view can be monitored.
[0012]
The network monitoring method of the present invention, a plurality of land lifting stations are connected by submarine cable via a submarine repeater to each of the RikuYokyoku, submarine repeater of the RikuYokyoku near an alarm by device failure An optical submarine relay cable system comprising: a submarine cable termination device for detecting two types of alarms due to a failure ; an inspection device for inspecting the submarine repeater; and a monitoring device for monitoring devices in the landing station. In the network monitoring method, the monitoring devices of the landing stations that are connected to each other via the data communication network network to detect the alarm are connected to each other. via the data communication network system receives alarm information from RikuYokyoku from said alarm information, the submarine repeater alarm and the other land near lift station based on the equipment failure of the opposite landed station Get an alarm and based on the failure identified and, based on the alarm, is to identify the cause of failure.
[0013]
As described above, according to the present invention, the operator of the monitoring device of each landing station can specify the cause of the transmission path failure connected to the landing station, and the cause of the main signal fraud Can be recognized by each landing station, and it is possible to quickly respond to fraud of the main signal.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
In a preferred embodiment of the network monitoring system for an optical submarine relay cable system according to the present invention, a plurality of landing stations are connected by a submarine cable via a submarine repeater, and the submarine cable termination is connected to each landing station. The monitoring device of one landing station that has an apparatus, a submarine repeater inspection device, and a monitoring device, each of which is connected to each other via a data communication network and detects an alarm, Receiving alarm information from a station via a data communication network and identifying whether the alarm is based on a device failure in the opposite landing station or on a submarine repeater near the opposite landing station Identify the cause of the failure.
[0015]
Hereinafter, a description will be given with reference to FIG. FIG. 1 shows an optical submarine cable termination device 2a, 2b and its monitoring devices 1a, 1b, landing stations A, B including submarine repeater inspection devices 3a, 3b, and an optical submarine repeater 4a, 4b, 4c. It is a figure which shows typically the structure of the optical submarine relay cable system which consists of a relay area and the data communication network 5 which connects the monitoring apparatuses 1a and 1b of each landing station.
[0016]
Here, the monitoring device 1b of the landing station B manages the device information of the landing station B. In the present embodiment, the operator of the monitoring device 1b of the landing station B is allowed to receive monitoring information of the opposite landing station A via the data communication network 5 in order to manage the submarine relay section as a subnetwork. The section connecting the landing stations AB can be managed as a sub-network. In addition, by using information from the submarine repeater inspection devices 3a and 3b, it is possible to give a detailed network monitoring view to the operator of the monitoring device at both landing stations.
[0017]
【Example】
In order to describe the above-described embodiment of the present invention in more detail, examples of the present invention will be described with reference to the drawings.
[0018]
[Example 1]
First, a network monitoring system and a network monitoring method in the optical submarine relay cable system according to the first embodiment of the present invention will be described with reference to FIGS. FIG. 1 is a diagram schematically illustrating an optical submarine relay cable system including landing stations A and B, a submarine relay section, and a data communication network 5. FIG. 2 illustrates a network monitoring system according to the present embodiment. It is a flowchart figure which shows the factor specific procedure of the used alarm.
[0019]
In FIG. 1, the submarine cable termination devices 2a and 2b of the optical submarine relay cable system detect two types of alarms, that is, a device alarm due to a device failure and a transmission path alarm due to an illegal reception signal, and transmit them to the monitoring devices 1a and 1b. Is possible. Here, since the transmission line alarm is determined based on detection of signal fraud, only the reception side can be detected. Further, since the submarine repeater inspection devices 3a and 3b determine the return signal by detecting the transmitted signal reflected by the repeaters 4a, 4b and 4c, the repeater is used only in the transmission-side submarine repeater inspection device. It is possible to detect a failure.
[0020]
Now, when a signal interruption of A → B occurs due to a device failure at the landing station A, the landing station B detects a transmission line alarm although it does not recognize a device failure within itself. Similarly, a transmission line alarm is also detected when a signal interruption of A → B occurs due to a relay failure in the submarine relay section. At this time, the monitoring device 1b of the landing station B performs an operation of receiving device failure information and repeater failure information from the monitoring device 1a of the landing station A via the data communication network 5, thereby It is possible to transmit the cause of the transmission path alarm generated.
[0021]
Next, the overall operation of this embodiment will be described in detail with reference to the flowcharts of FIGS.
[0022]
First, in step S101 of FIG. 2, the submarine cable termination device 2b of the landing station B detects a transmission line alarm, and a notification is raised to the monitoring device 1b. At this point in time, the landing station B has no equipment failure of its own station, and the monitoring device 1b can recognize only that there is some trouble upstream from the transmission path including the submarine relay section. Next, in step S102, the monitoring device 1b of the landing station B monitors the device warning of the submarine cable termination device 2a of the opposite station (landing station A) of the transmission path where the alarm is generated. Obtained from the device 1a.
[0023]
Here, in step S103, if a device alarm is raised in the submarine cable termination device 2a of the opposite station (landing station A), the monitoring device 1b of the landing station B is notified of the failure of the opposite station device. (See step S104). Further, in step S105, the landing station A is requested to check the submarine relay section, and the result of the inspection of the submarine repeater is received from the landing station A via the data communication network 5, and the repeater failure is detected. If it is, the failure of the repeater is notified as a factor (see step S106).
[0024]
As described above, according to the network monitoring system and the network monitoring method in the optical submarine relay cable system according to the present embodiment, the alarm information can be acquired from the monitoring device of the opposite station via the data communication network 5, so that the alarm It is possible to grasp whether the content of the error is due to the device failure of the opposite station or the failure of the submarine repeater, and it is possible to respond quickly to the alarm.
[0025]
[Example 2]
Next, a network monitoring system and a network monitoring method in the optical submarine relay cable system according to the second embodiment of the present invention will be described with reference to FIG. FIG. 3 is a diagram schematically illustrating a configuration of an optical submarine relay cable system including four landing stations 1 to 4.
[0026]
Referring to FIG. 3, in the network monitoring system of the present embodiment, the terminal device 6 of the main signal network and the monitoring device 1 at each site exist in each of the four landing stations, and constitute a ring configuration network. Yes. The monitoring device 1 of each landing station has a function of monitoring the main signal device in its own station. And the monitoring data communication network 8 is constructed | assembled with the monitoring apparatus 1 of each landing station, and a network view can be provided with respect to the supervisor of each site by sharing monitoring data with each landing station.
[0027]
For example, it is assumed that there is a transmission line P1 from the landing station 1 to 3 via 2. When the fraud of the main signal is detected at the terminal point 2 of the landing station 3, the monitoring device 1 of the landing station 3 requests the monitoring device 1 of the landing station 2 to identify the factor. When the factor is not specified at the landing station 2, the monitoring device 1 of the landing station 1 is requested to specify the factor. In this way, the operator of the monitoring device 1 at each landing station can recognize where the cause of the main signal fraud detected at the landing station 3 is based on the cause that occurred on the network. Is possible.
[0028]
As described above, according to the network monitoring system and the network monitoring method in the optical submarine relay cable system of this embodiment, the monitoring data communication network is constructed by the monitoring devices 1 of the landing stations constituting the ring network. Then, by sharing the monitoring data via the communication network 8, the cause of the main signal fraud can be recognized by each landing station, and the main signal fraud can be quickly dealt with.
[0029]
【The invention's effect】
As described above, according to the network monitoring system and the network monitoring method in the optical submarine relay cable system of the present invention, the operator of the monitoring device of each landing station can detect the failure of the transmission path connected to the landing station. The factor can be specified, and it is possible to quickly respond to the alarm.
[0030]
The reason is that the device information of the opposite station and the repeater inspection result can be received via the data communication network.
[0031]
Further, according to the network monitoring system and the network monitoring method in the optical submarine relay cable system of the present invention, the cause of the main signal fraud can be recognized by each landing station, and the main signal fraud can be quickly dealt with. be able to.
[0032]
The reason is that the monitoring data communication network can be constructed by the monitoring devices of the landing stations constituting the ring configuration network, and the monitoring data can be shared via the communication network.
[Brief description of the drawings]
FIG. 1 is a diagram schematically showing a configuration of a network monitoring system in an optical submarine relay cable system according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing a procedure for specifying an alarm factor in the network monitoring system according to the first embodiment of the present invention;
FIG. 3 is a diagram schematically showing a configuration of a network monitoring system in an optical submarine relay cable system according to a second embodiment of the present invention.
FIG. 4 is a diagram schematically showing a configuration of a conventional optical submarine relay cable system.
[Explanation of symbols]
1, 1a, 1b Monitoring device 2a, 2b Submarine cable termination device 3a, 3b Submarine repeater inspection device 4a, 4b, 4c Submarine repeater 5 Data communication network 6 Network termination device 7 Main signal line 8 Monitoring data communication network 9 Device 10 Transmission device management device

Claims (6)

A plurality of land lifting stations are connected by submarine cable via a submarine repeater to each of the RikuYokyoku, detects the two types of alarm warning by submarine repeater failure of the RikuYokyoku near an alarm by device failure A network monitoring system in an optical submarine relay cable system, comprising: a terminal device for the submarine cable; an inspection device for inspecting the submarine repeater; and a monitoring device for monitoring a device in the landing station.
Further, the monitoring devices of the landing stations are connected to each other via a data communication network, and each monitoring device is notified from the terminal device of the landing station , within the landing station or Means for transmitting an alarm generated in at least one of the submarine repeaters in the vicinity of the landing station, and receiving the alarm information transmitted from another landing station; from the warning information, in the other landing station said means for obtaining alarm and identify and the based on the submarine repeater failure, based on the alert, to have a means for identifying the cause of fault alarm based on the equipment failure and the other land near fried station A network monitoring system.   By performing data communication between the monitoring devices of each landing station via the data communication network, in each of the monitoring devices, a section between the landing station and the landing station facing the landing station is also provided. The network monitoring system according to claim 1, wherein monitoring is possible.   By performing data communication between the monitoring devices of the landing stations via the data communication network, the network view of the entire optical submarine relay cable system can be monitored in each of the monitoring devices. The network monitoring system according to claim 1 or 2, characterized in that A plurality of land lifting stations are connected by submarine cable via a submarine repeater to each of the RikuYokyoku, detects the two types of alarm warning by submarine repeater failure of the RikuYokyoku near an alarm by device failure A network monitoring method in an optical submarine relay cable system, comprising: a terminal device for the submarine cable; an inspection device for inspecting the submarine repeater; and a monitoring device for monitoring a device in the landing station.
Furthermore, the monitoring device of each landing station is connected to each other via a data communication network network, and the monitoring device of one landing station that has detected an alarm detects the data communication network from the opposite landing station. via the network receives the alarm information, obtained from said alarm information, identify and alarm and based on the submarine repeater failure alarm and the other land near lifting station apparatus based on the failure of the landed station to the opposite network monitoring method, and based on the alarm, and identifies the cause of the failure.   By performing data communication between the monitoring devices of each landing station via the data communication network, in each of the monitoring devices, a section between the landing station and the landing station facing the landing station is also provided. The network monitoring method according to claim 4, wherein monitoring is performed.   The network view of the entire optical submarine relay cable system is monitored in each of the monitoring devices by performing data communication between the monitoring devices of each of the landing stations via the data communication network. The network monitoring method according to claim 4 or 5.

Images