JP3603670B2 - Maintenance equipment for transmission termination equipment - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a transmission terminator used in a transmission line network for transmitting a high-speed digital signal, and in particular, enables a station in which a transmission terminator is installed to monitor and maintain a transmission terminator located in another station from any maintenance station. And improvement.
[0002]
[Prior art]
When a failure occurs in a telephone set at a customer's house or a private private branch exchange, the telephone service provider determines whether the cause of the failure is on the equipment side, line side, or network side by the remote maintenance office, and Restoring from the above is disclosed in, for example, JP-A-6-37891.
On the other hand, at the present situation, a telephone service provider has conventionally entered a station where a transmission termination device of the telephone service company is installed, and a maintenance person enters the station to carry out maintenance work and software version upgrade.
[0003]
[Problems to be solved by the invention]
By the way, in an environment where the price of long-distance telephone charges gradually decreases along with the expansion of the transmission network, telephone service providers have realized more efficient and cost-effective maintenance work on transmission terminators and upgrades to software versions compared to the past. The need arises.
[0004]
Japanese Patent Application Laid-Open No. 9-321729 discloses a synchronous multiplexed signal obtained by adding a signal called overhead for performing monitoring and maintenance operation of a transmission device and a communication network to a multiplexed main signal in a maintenance operation of a digital transmission device. A technology that flexibly responds to the addition or change of a transmission network by using the Internet is disclosed. However, this technique is a technique for detecting an error generated in a transmission section for transmitting and receiving overhead, and is not suitable for maintenance work of the transmission terminating apparatus itself.
[0005]
SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems, and to provide a transmission termination device that realizes low-cost and efficient maintenance work of a transmission termination device and upgrade of software.
[0006]
[Means for Solving the Problems]
The transmission termination device of the present invention that solves the above problem will be described using a transmission termination device 6 that terminates a main signal, as shown in FIGS. The transmission terminating device 6 includes a monitoring control unit 14 for monitoring the transmission terminating device 6 itself, a remote maintenance function unit 13 for transmitting / receiving and switching a remote maintenance signal including path information, and a main signal for communication with the opposite station A. And a transmission multiplexing / demultiplexing unit 12 for performing the overhead of (1). The remote maintenance function unit 13 includes a LAN interface unit 21b connected to another transmission terminating device 7 and / or a device to be maintained in the station, a transmission interface unit 23b for interfacing with the transmission multiplexing / demultiplexing unit 12, and route information. The transfer path of the remote maintenance signal is transferred to another transmission terminating device 7 and / or equipment to be maintained in the station via the LAN interface 21b, or via the transmission interface 23b and the transmission multiplexing / demultiplexing unit 12. And an arithmetic processing unit 22b for transferring or switching to the opposite station A.
[0007]
In the device configured as described above, when the remote maintenance signal is addressed to the own transmission terminating device 6, the remote maintenance function unit 13 obtains monitoring information from the monitoring control unit 14 and receives the monitoring information via the LAN interface unit 21b. It is returned to the opposite station A via the other transmission terminating device 7 or the transmission interface unit 23b and the transmission multiplexing / demultiplexing unit 12. On the other hand, when the remote maintenance signal is addressed to another transmission terminal, the own transmission terminal 6 functions as a relay device. That is, for the remote maintenance signal received from the opposite station A via the transmission multiplexing / demultiplexing unit 12 and the transmission interface unit 23b, the arithmetic processing unit 22b sends the signal to the other transmission terminating device 7 in the station via the LAN interface unit 21b. And / or transfer to the maintenance target device. On the other hand, for a remote maintenance signal received from another transmission terminal device 7 in the station via the LAN interface unit 21b, the arithmetic processing unit 22b sends the signal to the opposite station A via the transmission interface unit 23b and the transmission multiplexing / demultiplexing unit 12. Forward.
[0008]
Preferably, the remote maintenance signal may be a request for monitoring information for a maintenance target device connected to the transmission terminating device 6 or the LAN interface unit 21b of the transmission terminating device, or a response to the monitoring information request. Further, the remote maintenance function unit 13 may include an interface unit 21b for connecting the maintenance terminal 4 that transmits and receives the remote maintenance signal. The transmission terminal device 6 provided with the maintenance terminal 4 functions as a master station.
[0009]
In addition, the remote maintenance signal includes software upgrade information, and the arithmetic processing unit 22b reads the software upgrade information for the transmission terminating device 6 from the remote maintenance signal and updates the software version of the transmission termination device 6. It is good to carry out the configuration. Preferably, the transmission terminating device 6 to be upgraded is software of a maintenance target device connected to the monitoring control unit 14 or the LAN interface unit 21b. Further, the arithmetic processing unit 22b may be configured to transfer the software version upgrade information for the other transmission terminating device included in the remote maintenance signal to another transmission terminating device in the station or the opposite station.
[0010]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a configuration block diagram illustrating a first embodiment of the present invention. In the figure, an A station 1 which is a master station of a remote maintenance station has a maintenance terminal 4 for remote maintenance and a transmission terminal device 5 for terminating transmission of a main signal. The transmission terminating device 5 includes a monitoring control unit 9 for monitoring the device, a remote maintenance function unit 10 for transmitting / receiving and switching a remote maintenance signal, and a transmission demultiplexing unit 11 for performing overhead processing of a main signal. . A general-purpose communication protocol such as TCP / IP (Transmission Control Protocol / Internet Protocol) may be used as the route information exchange protocol of the remote maintenance function unit 10, for example.
[0011]
The station B has two transmission terminators 6 and 7. The transmission terminal device 6 includes a monitoring control unit 14, a remote maintenance function unit 13, and a transmission multiplexing / demultiplexing unit 12. The transmission terminating device 7 includes a monitoring control unit 17, a remote maintenance function unit 15, and a transmission demultiplexing unit 16. The transmission terminating device 6 faces the transmission terminating device 5 of the station A, and the transmission terminating device 7 faces the transmission terminating device 8 of the station C.
[0012]
The station C also has the transmission terminating device 8, and has a monitoring control unit 20, a remote maintenance function unit 19, and a transmission demultiplexing unit 18. The remote maintenance function unit 10 of the station A and the remote maintenance function unit 13 of the station B face each other via a main signal. Further, the remote maintenance function unit 15 of the station B and the remote maintenance function unit 19 of the station C also face each other via the main signal. The remote maintenance function units 13 and 15 of the station B are connected to each other using, for example, an intra-station LAN.
[0013]
2 to 5 show configuration examples of the remote maintenance function unit of each station.
FIG. 2 is a configuration block diagram showing details of the remote monitoring function unit 10 of the A station.
The remote maintenance function unit 10 includes a LAN interface unit 21a that interfaces with a LAN (Local Area Network) outside the device, an arithmetic processing unit 22a that processes path information, and a transmission interface that interfaces with an overhead processing unit of a main signal. It has a portion 23a. The maintenance terminal 4 is connected to the LAN interface unit 21a, and the transmission interface unit 23a is connected to the transmission demultiplexing unit 11 facing the station B.
[0014]
FIG. 3 shows details of the remote maintenance function unit 13 of the station B. The remote maintenance function unit 13 has a LAN interface unit 21b, an arithmetic processing unit 22b, and a transmission interface unit 23b, like the station A. The LAN interface unit 21b is provided with an interface 24 for connecting to the remote maintenance function unit 15 facing the station C. The transmission interface unit 23b is connected to the transmission demultiplexing unit 12 facing the A station.
[0015]
FIG. 4 shows the details of the remote maintenance function unit 15 of the station B.
The remote maintenance function unit 15, like the remote maintenance function unit 13, includes a LAN interface unit 21d, an arithmetic processing unit 22d, and a transmission interface unit 23d. The LAN interface 21d is provided with an interface 25 for connecting to the remote maintenance function unit facing the A station. The transmission interface unit 23d is connected to the transmission demultiplexing unit 12 facing the station C.
[0016]
FIG. 5 shows details of the remote maintenance function section 19 of the station C. The remote maintenance function unit 19 has a LAN interface unit 21c, an arithmetic processing unit 22c, and a transmission interface unit 23c, like the other stations. The monitoring / control processing unit 20 is connected to the LAN interface unit 21c, and the transmission interface unit 23c is connected to the transmission demultiplexing unit 18 facing the B station.
[0017]
The operation of the device configured as described above will be described with reference to FIGS. Here, the terminal is operated from the maintenance terminal 4 installed in the station A 1 which is the master station of the remote maintenance station, monitors and controls the transmission terminal 8 of the station C via the transmission terminal 6 and 7 of the station B 2. Will be described as an example.
[0018]
In FIG. 2, the remote maintenance function unit 10 of the station A receives the data including the path information from the maintenance terminal 4 by the LAN interface unit 21a. The arithmetic processing unit 22a processes the route information and outputs data to the transmission line interface unit 23a according to the route information. The transmission line interface unit 23a converts the data into a format for the transmission line, and outputs the data and the route information to the transmission demultiplexing unit 11. The transmission demultiplexing unit 11 superimposes data and path information on the overhead of the main signal, and transmits the data to the transmission terminal device 6 of the B station.
[0019]
Next, in FIG. 3, the main signal transmitted from the station A is received by the transmission demultiplexing unit 12, and the data and the route information are separated from the overhead. The data and the route information are input to the arithmetic processing unit 22b via the transmission interface unit 23b of the remote maintenance function unit 13. The arithmetic processing unit 22b processes the input route information, and transfers the data and the route information to the remote maintenance function unit 15 of the transmission terminal device 7 via the LAN interface unit 21b according to the route information.
[0020]
In FIG. 4, the remote maintenance function unit 15 of the transmission terminal device 7 receives the data and the route information by the LAN interface unit 21d, and processes the route information by the arithmetic processing unit 22d. Then, the arithmetic processing unit 22d outputs the data and the route information from the transmission interface unit 23d to the transmission demultiplexing unit 16 according to the route information. The transmission demultiplexing unit 16 superimposes data and route information on the overhead of the main signal and transmits it to the station C.
[0021]
In FIG. 5, the main signal transmitted from the station B is received by the transmission demultiplexing unit 18, and the data and the path information are separated from the overhead. The data and the route information are input to the arithmetic processing unit 22c via the transmission interface unit 23c of the remote maintenance function unit 19. The arithmetic processing unit 22c determines that the data has been transmitted to the own device based on the route information, outputs the data to the monitoring / control processing unit 20a through the LAN interface unit 21c, and performs monitoring / control in the transmission terminating device 8 of the station C. Do. The result of the monitoring control is transmitted from the remote maintenance function unit 19 to the remote maintenance function unit 10 of the station A via the reverse route, and the result can be obtained by the maintenance terminal 4.
[0022]
Next, referring to FIG. 1, the remote control station is operated from a maintenance terminal 4 installed in the station A 1 to monitor and control the monitoring control unit 9 of the station A 1 and the transmission terminating devices 6 and 7 of the station B 2. An example in which software versions of the units 14, 17 and the monitoring control unit 20 of the transmission terminal device 8 of the station C 3 are upgraded will be described. By specifying the path information and executing the software download from the maintenance terminal 4 to the monitoring control units of the transmission terminating devices of all the stations, the software version is simultaneously upgraded.
[0023]
In FIG. 2, the remote maintenance function unit 10 of the station A inputs path information and data from the maintenance terminal 4 to the LAN interface unit 21a. The arithmetic processing unit 22a processes the route information and transmits data and route information to the station B via the transmission line interface unit 23a. At the same time, the arithmetic processing unit 22a determines that the data is data for download by itself, outputs the data to the monitoring / control processing unit 9a, and rewrites the program of the monitoring / control processing unit 9a.
[0024]
Next, in FIG. 3, the data and the route information transmitted from the station A are received by the transmission multiplexing / demultiplexing unit 12 and input to the arithmetic processing unit 22b via the transmission interface unit 23b of the remote maintenance function unit 13. The arithmetic processing function unit 22b determines from the path information that the data is data for download of the own device, outputs the data to the monitoring / control processing unit 14a, and rewrites the program of the monitoring / control processing unit 14a. At the same time, it outputs data and route information to the remote maintenance function unit 15 for the station C.
[0025]
In FIG. 4, a LAN interface unit 21d of the remote maintenance function unit 15 receives data and route information and arrives at an arithmetic processing unit 22d. The arithmetic processing unit 22d determines the route information and sends it to the monitoring / control processing unit 17a to rewrite the program of the monitoring / control processing unit 17a. At the same time, the arithmetic processing unit 22d passes the data to the transmission demultiplexing unit 16 via the transmission interface unit 23d. As a result, data and route information are transmitted from station B to station C.
[0026]
In FIG. 5, data and route information from station B are received by the transmission multiplexing / demultiplexing unit 18 of station C, and are input to the arithmetic processing unit 22c via the transmission interface unit 23c of the remote maintenance function unit 19. The arithmetic processing unit 22c processes the path information, determines that the data is download data of the own device, outputs the data to the monitoring / control processing unit 20 through the LAN interface unit 21c, and rewrites the program of the monitoring / control processing unit 20. .
[0027]
FIG. 6 is a configuration block diagram for explaining the second embodiment of the present invention, and shows a case where the stations A and C are directly connected without passing through the relay station B. The terminals 4a and 4b are, for example, personal computers and have a communication function using the same routing information exchange protocol as the routing information exchange protocol of the remote maintenance function units 12a and 19a of the stations A and C. With this configuration, it can be used for data communication between the terminal 4a and the terminal 4b using the transmission demultiplexing unit that performs overhead of the main signal.
[0028]
FIG. 7 is a configuration block diagram illustrating a third embodiment of the present invention. When the transmission terminating device 5 of the station A and the transmission terminating device 8 of the station C 3 face each other, the devices D26 and E27 of the station C3 are provided with general-purpose LAN interfaces 28a and 28b, respectively. Connect to the remote maintenance function unit 19. With this configuration, the terminal device 4 of the station A 1 can remotely monitor the devices D26 and E27 installed in the station C 3.
[0029]
【The invention's effect】
As described above, according to the present invention, the transmission terminating device has the LAN interface unit connected to the device in the same station and the plurality of interfaces (connection ports) of the transmission interface unit connected to the opposite station. A monitoring network between devices can be configured between at least two opposing stations. In addition, devices connected to the LAN interface unit may be devices other than the transmission terminating device.
Further, even when the transmission path network is composed of three or more stations, a monitoring system network based on the path information protocol can be constructed by using the overhead of the main signal between the stations transmitted and received by the transmission demultiplexing unit. With the configuration, by connecting the maintenance terminal to the transmission terminating device, it becomes possible to monitor / maintain, for example, all the intra-office devices in the transmission line network from any station.
[0030]
The remote maintenance signal includes software upgrade information, and the arithmetic processing unit reads the software upgrade information for the transmission terminating device from the remote maintenance signal, and upgrades the software of the transmission termination device. In addition, the software version can be easily and quickly executed for all devices in the transmission line network by an operation from an arbitrary station.
[Brief description of the drawings]
FIG. 1 is a configuration block diagram illustrating a first embodiment of the present invention.
FIG. 2 is a configuration block diagram showing details of a remote monitoring function unit 10 of an A station.
FIG. 3 is a configuration block diagram illustrating details of a remote monitoring function unit 13 of a station B;
FIG. 4 is a configuration block diagram showing details of a remote monitoring function unit 15 of the station B;
FIG. 5 is a configuration block diagram showing details of a remote monitoring function unit 19 of the station C;
FIG. 6 is a configuration block diagram illustrating a second embodiment of the present invention.
FIG. 7 is a configuration block diagram illustrating a third embodiment of the present invention.
[Explanation of symbols]
1 Station A (master station)
2 Station B (relay station)
3 Station C (maintenance target station)
4 Maintenance terminal 5, 6, 7, 8 Transmission terminating device 9, 14, 17, 20 Monitoring control unit 9a, 14a, 17a, 20a Monitoring control processing unit 10, 13, 15, 19 Remote maintenance function unit 11, 12, 16 , 18 Transmission demultiplexing units 21a, 21b, 21c, 21d, 28a, 28b LAN interface units 22a, 22b, 22c, 22d Arithmetic processing units 23a, 23b, 23c, 23d Transmission interface unit

Claims (6)

A monitoring control unit for monitoring the own transmission terminal device, a remote maintenance function unit for transmitting and receiving and switching a remote maintenance signal including path information, and a transmission demultiplexing unit for performing an overhead of a main signal for communication with the opposite station. In the transmission terminal device for terminating the main signal,
The remote maintenance function unit includes:
An interface for connecting devices in the same station, wherein the LAN interface is connected to another transmission terminating device in the station and / or equipment to be maintained in the station ;
A transmission interface unit for interfacing with the transmission multiplexing / demultiplexing unit and forming part of a transmission path between stations, and for converting a format of data in the station to a format for a transmission path between stations. When,
According to the path information, a transfer path of the remote maintenance signal is transferred to another transmission terminating device and / or equipment to be maintained in the same station via the LAN interface unit, or the transmission interface unit and the transmission demultiplexer are transferred. A processing unit for transferring or switching to the opposite station via the unit,
Equipped with,
Further, the remote maintenance function unit includes:
When the remote maintenance signal is addressed to the own transmission terminal, the monitoring information is obtained from the monitoring control unit via the LAN interface unit, and the monitoring information is directed to the source of the remote maintenance signal. Return function,
When the remote maintenance signal is addressed to a transmission terminal of another station, the remote terminal transmits the remote maintenance signal to the opposite station via the transmission interface unit and the transmission demultiplexing unit. 2. The remote maintenance signal according to claim 1, wherein the signal is a request for monitoring information for a transmission termination device or a maintenance target device connected to a LAN interface unit of the transmission termination device, or a reply to the monitoring information request. The transmission terminating device according to claim 1. 2. The transmission termination device according to claim 1, wherein the remote maintenance function unit includes an interface unit for connecting a maintenance terminal that transmits and receives the remote maintenance signal. The remote maintenance signal includes software upgrade information,
2. The transmission terminating apparatus according to claim 1, wherein the arithmetic processing unit reads software version upgrade information for the own transmission terminating apparatus from the remote maintenance signal and upgrades the software version of the transmission terminating apparatus. . The transmission terminal device according to claim 4, wherein the own transmission terminal device is a maintenance target device connected to the monitoring control unit or the interface unit. The arithmetic processing unit transfers software upgrade information for another transmission terminating device included in the remote maintenance signal to another transmission terminating device and / or maintenance target device in the station, or an opposite station. The transmission termination device according to claim 4, wherein

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