JPS6118247A - Remote loopback system - Google Patents

Abstract

PURPOSE:To prevent forming of a closed loop between opposite stations by inhibiting the transmission of a loopback instruction from the own station when the loopback instruction from an opposite station is received in a system executing loopback mutually to stations opposite to each other. CONSTITUTION:When remote loopback is executed by the loopback instruction from the own station A in the opposite station B, the opposite station B receives the loopback instruction from the own station A, a loopback instruction receiver 6B generates an inhibit signal 9B to control a remote loopback instruction transmitter 4B and to inhibit the transmission of remote loopback instruction. Thus, when the opposite station B is in the remote loopback state by the loopback instruction from the own station A, no remote loopback instruction is transmitted from the opposite station B and the forming of a closed loop is avoided because of the loopback state for both the stations at the same time.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention controls the start and release of remote loopback when performing remote loopback of a signal line for the purpose of maintenance, troubleshooting, etc. It is related to the method for

C. Prior Art] It is already known to equip communication equipment with a loopback function in order to simplify maintenance of signal lines, troubleshooting, etc., or to facilitate checking of signal communication during the construction of communication lines. It is widely practiced.

However, in the conventional remote loopback method, in a system consisting of a master station and a slave station, the slave station generally performs loopback according to an instruction from the master station, and two opposing stations mutually perform a loopback. No scheme was used to allow loopbacks to occur.

FIG. 2 shows A facing 1:1 via a transmission path.

B shows a system in which both stations each have a loopback function and can perform loopback according to instructions from the other station.

In Figure 2, if a failure occurs in the system, for example, A
By making a loopback at the opposing station B, the station makes a folding wave as shown by the solid line C.
Only station A can check whether there is a failure up to the opposing station B. Similarly, from station B, it is possible to check whether there is a failure up to the opposing station A using only station B.

By doing so, for example, when both stations A and B are unmanned, there is an advantage that maintenance can be performed from either station A or B.

In such a system, if station B is placed in a loopback state by instructions from station A, and station A is placed in a loopback state by instructions from station B, then there is a A closed loop as shown by the solid line and the broken line is formed, and both stations not only become unable to communicate, but are also unable to recover from this state.

For this reason, conventional remote communication systems, as shown in Figure 2, have been developed in which each opposing station has a loopback function and mutual loopbacks can be performed at the other station.
No loopback method was used.

[Problem that the invention seeks to solve]

The present invention is an attempt to solve the problems of the prior art as described above, in which two opposing stations each have a loopback function, and each station performs loopback at the other station without forming a closed loop. The aim is to provide a method that can do this.

[Means for solving problems]

゛In the remote loopback method of the present invention, two stations facing each other via a transmission path each have a loopback function,
In a system where each station can perform loopback at the other station, each station has a switch unit for sending a loopback command to the other station, and the operation of the switch unit when receiving a loopback command from the other station. It also provides means for prohibiting.

[For production]

In the remote loopback system of the present invention, when a loopback command is received from the other station, the sending of a loopback command from the own station to the other station is prohibited, so that a closed loop is not formed.

〔Example〕

FIG. 1 is a diagram showing the configuration of an embodiment of the remote loopback method of the present invention. In the same figure, IA, I
B is the input line, 2A, 2B is the output line, 3A.

3B is a switch unit, 4^, 4B is a remote loopback command transmitter, 5^, 5B is a loopback switch, 6
A, 6B is a remote loopback command receiver, 7A
.

7B is a multiplexer (DMUX), and 9A and 9B are inhibit signals. Figure 1 shows a case where both stations A and B face each other via a transmission line, and the part with the subscript A constitutes the A station,
The portion with the suffix B constitutes the B station. Communication between these two stations is assumed to be performed by a multiplexed signal in which, for example, low-order group signals of several channels with different speeds are multiplexed into a high-order group signal having a higher frequency,
In addition, a stuff pulse is inserted into the multiplexed signal in order to adjust the speed difference between the low-order group signal and the high-order group signal.

In Fig. 1, in order to maintain the signal path between local station A and game B, the input signal from line IA of local station A is routed through loopback switch 5B in game B to local station A.
The check is performed by outputting to the line 2A.

At own station A, a remote loopback command is generated by turning on the switch section 3A. This command is inserted into the stuff pulse portion of the multiplexed signal frame between the two stations by the remote loopback command transmitter 4A, and is further multiplexed with other signals by the multiplexer 7A, and sent to the station B via the transmission path. will be sent.

In game B, the signal received via the transmission path is separated by the demultiplexer 8B, and the remote loopback command in the separated signal is received by the loopback command receiver 6B. When the loopback command receiver 6B receives the remote loopback command, it controls the loopback switch 5B to put the signal in a loopback state. As a result, the output of demultiplexer 8B is returned to multiplexer 7B. Therefore, the input signal from line IA is multiplexed by multiplexer 7A, inputted to demultiplexer 8A via game B, separated, and output to line 2A for loopback.

In this way, when game B is performing remote loopback in response to a loopback command from own station A, in game B, upon receiving the loopback command from own station A, the loopback command is executed. Receiver 6B generates an inhibit signal 9B to control remote loopback command transmitter 4B and inhibit remote loopback command transmission. Therefore, when station B is in the remote loopback state due to a loopback command from own station A, the remote loopback command will not be sent from station B, and both stations will be in the loopback state at the same time. No closed loop is formed.

Furthermore, even if game B first sends a remote loopback command, it is possible to put local station A into the remote loopback state in exactly the same way. - A closed loop will not be formed due to a loopback condition.

〔Effect of the invention〕

As explained above, according to the remote loopback method of the present invention, in a system in which two stations facing each other via a transmission path each have a loopback function, and each station can perform loopback at the other station, , players can play remotely without forming a closed loop between the players.
A loopback can be performed.

[Brief explanation of drawings]

Fig. 1 is a diagram showing the configuration of an embodiment of the remote loopback method of the present invention, and Fig. 2 shows that both opposing stations each have a loopback function, and that loopback can be performed according to instructions from the other station. 1 is a diagram illustrating a system configured to allow. IA, IB-m-human power line, 2A, 2B-output line, 3
A, 3B-Switch unit, 4A, 4B--Remote loopback command transmitter, 5A, 5B-Loopback switch, 6A. 6B-m-remote loopback command receiver, 7A,
7B...-Multiplexer (MUX), 8A, 8B-
Demultiplexer (DMUX), 9A, 9B...-inhibit signal

Claims (1)

[Claims] In a system where two stations facing each other via a transmission path each have a loopback function and can mutually perform loopback at the other station by sending a remote loopback command, remote remote loopback command sending means for sending a loopback command; and when receiving a remote loopback command from a partner station, controlling the remote loopback command sending means to prohibit sending of the remote loopback command. The remote loopback method is characterized in that each station is provided with a means for