JPH088819A - Optical communication system - Google Patents

Abstract

PURPOSE:To provide the optical communication system by which the state of a standby system transmission line is monitored during its operation. CONSTITUTION:The optical communication system is formed such that an optical signal from a subscriber equipment 11 is fed to an active system station equipment 120 and a standby station equipment 121 through a star coupler 13 and the optical signal from the active system station equipment 120 and the standby station equipment 121 is fed to the subscriber equipment. The subscriber equipment and the station equipments are formed such that the subscriber equipment 11, upon the receipt of a standby system transmission line monitor instruction sent by the active system station equipment 120, sends a transmission signal transmission enable instruction to the standby station equipment 121, and the standby station equipment 121 receiving the instruction provides an output of information representing the state of the standby system transmission line to the active system station equipment 120 via the subscriber equipment 11.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical communication system, and more particularly, to an optical communication system having a duplexed station device and an optical transmission line.

[0002]

2. Description of the Related Art In an optical communication system, two systems of transmission lines are provided between a station device and a subscriber device, and when a failure occurs in a working system transmission line, communication is performed using a standby system transmission line. The system may be configured to do so.

FIG. 3 shows an example of a conventional optical communication system.
You As shown, in the conventional optical communication system,
The subscriber unit 11 is controlled by the optical switching circuit 18 to the 0-system station unit.
12 ₀, 1 system station device 12₁Connected to one of
For example, the 0-system station device 12₀Is the active system
1 transmission line 15 which is a standby transmission line₁State of
In order to grasp the
After the operation, the active system station device 12₀Stop sending and receiving operations
And the standby system station 12₁Process such as starting
It was being appreciated.

[0004]

As described above, in the conventional optical communication system, in order to grasp the state of the protection system transmission line, the operation of the working system station device is stopped and the protection system station device is stopped. It was necessary to perform the same processing as when starting up. As described above, in the conventional optical communication system, since a complicated process involving a switching process is required to grasp the state of the protection transmission line, the status monitoring of the protection transmission line is frequently performed. However, for example, when a failure occurs in the active transmission line, a situation may occur in which the failure also occurs in the standby transmission line to be switched.

Therefore, an object of the present invention is to provide an optical communication system capable of monitoring the state of a standby transmission line during operation.

[0006]

In the optical communication system according to the present invention, (a) whether or not the received optical signal includes a standby system transmission line monitoring command for instructing monitoring of the standby system transmission line. And a transmission signal transmission permission command transmission unit that transmits a transmission signal transmission permission command when the determination unit determines that the standby system transmission monitoring command is included.
A subscriber unit including a transmission unit that transmits an optical signal received as a response to the transmission by the transmission unit, and (b) monitoring information that is information indicating the state of the standby transmission line when the transmission signal transmission permission command is received. To a standby system station device having a monitoring information transmitting means for transmitting a standby system transmission command, a standby system transmission line monitoring command transmitting means for transmitting a standby system transmission line monitoring command, and a standby system transmission line monitoring command transmitting means for transmitting a command. The active system station apparatus, which recognizes the state of the standby system transmission line based on the second optical signal received as a response to the second optical signal, and (d) the optical signal from the subscriber apparatus as the standby system station apparatus. It is composed of an optical circuit which supplies the working system station device and supplies the optical signal from the standby system station device or the working system station device to the subscriber unit.

That is, in the optical communication system according to the present invention, at least one subscriber device and two systems of station devices (the working system device and the protection system device) transmit the optical signal from the subscriber device to the protection system station. An optical circuit (and an optical transmission line) for supplying an optical signal from a standby system device or an active system device to a subscriber device and supplying the same to a device and a working system device, and is connected to each other.

In addition to the normal communication processing function, the subscriber unit sends a transmission signal when the received optical signal includes a standby system transmission line monitoring command for instructing monitoring of the standby system transmission line. It has a function of transmitting a transmission permission command (determination means and transmission signal transmission permission command transmission means), and a function of transmitting an optical signal received in response to the transmission signal transmission permission command. It also has (transmission means).

Further, the standby system station device is provided with a function (monitoring information transmitting means) for transmitting the monitoring information, which is the information indicating the state of the standby system transmission line, when the transmission signal transmission permission command is received. .

Therefore, in the optical communication system of the present invention,
When the working system station device transmits the protection system transmission line monitoring command, a transmission signal transmission permission command is transmitted from the subscriber device,
The standby system station device transmits the monitoring information in response to the reception of the transmission signal transmission permission command, and the subscriber device that receives the monitoring information loops back the monitoring information. During this period, the active system station device receives two sets of signals (a transmission signal transmission permission command from the subscriber device and the monitoring information returned by the subscriber device). No response is made, and the state of the standby transmission line is recognized based on the second optical signal, that is, the optical signal returned by the subscriber unit.

In the present invention, the protection system transmission line monitoring command transmission means in the active system station device is configured to transmit the protection system transmission line monitoring command when an administrator or the like instructs the execution. However, it is desirable that the backup transmission line monitoring command be transmitted every predetermined time. Further, as the optical circuit, any type of so-called directional coupler can be used, but using a star coupler has a wider applicability.

Further, in the optical communication system of the present invention, various types of transmission protocols can be used, for example, a time division multiplex transmission system can be used. When the time division multiplex transmission system is used, a signal line for exchanging distance information with the subscriber device is provided between the active system station device and the standby system station device, and one station device is the other station. If the distance information regarding the device can be recognized, it becomes possible to easily deal with the addition of the subscriber device.

[0013]

EXAMPLES The present invention will be described in detail below with reference to examples.

FIG. 1 shows an outline of an optical communication system according to an embodiment of the present invention. The optical communication system of the embodiment is configured as a system for performing so-called time division multiplexing transmission,
The subscriber unit 11 and the 0-system station device 12 ₀ and the 1-system station device 12 ₁
Is the star coupler 13, the transmission line 14, and the 0-system transmission line 15 ₀
And the 1-system transmission line 15 ₁ are connected in the form as shown.

That is, in this optical communication system, an optical signal from the 0-system station apparatus 12 ₀ (or 1-system station apparatus 12 ₁ ) joins via the star coupler 13 as schematically shown by an arrow. Transmitted to the subscriber device 11 and the subscriber device 1
The optical signal from ₁ is split by the star coupler 13 into a 0-system transmission path ₁₅₀ and a 1-system transmission path 151, and each of the 0-signal
It is received by the system station device 12 ₀ and the system 1 station device 12 ₁ .

Information transmission in time division multiplex transmission is performed within a predetermined time determined according to the transmission path length, but the signal line 16 between the 0-system station device 12 ₀ and the 1-system station device 12 ₁ is a station device. Reference numeral 12 is for notifying the other station device of the result of measuring the distance from the subscriber device 11, and is used when the system is started up or when the subscriber device is added to the system. To be done.

FIG. 2 shows an outline of a transmission frame format used in the optical communication system of the embodiment. As shown, in the one period of the transmission frame, separately from the main information frame 21 ₁ through 21 _N, the monitoring information frame 2
2 is allocated, and in the monitoring information frame 22, a standby system transmission line monitoring command slot 24, a transmission signal transmission permission command slot 25, and a monitoring information slot for storing the monitoring information indicating the state of the transmission line. 26 ₁ to 26 _N
Is provided.

The subscriber device 11 has a normal function of transmitting information by an optical signal according to such a format, and the contents of the standby system transmission line monitoring command slot 24 of the received optical signal (transmission frame) are transmitted by the standby system. When it is detected that it is an instruction to execute path monitoring, an optical signal with specific information set in the transmission signal transmission permission instruction slot 25 is transmitted, and as a response to the optical signal, the station device is sent. When the optical signal sent by is received, a function of sending the optical signal after setting the transmission signal sending permission command is added to the received optical signal. When the transmission signal transmission permission command is set, a monitoring signal relating to a failure of the optical signal transmitted from the station device to the subscriber device is also added when necessary.

When receiving the first transmission signal permission command, the standby station device (station device used as the standby system) stores predetermined monitoring information indicating the state of the transmission path in the monitoring information slot 26. Is configured to be transmitted to the subscriber device 11. At this time, the standby system station device transmits the optical signal at a timing such that the subscriber device 11 can receive the optical signal including the monitoring information within a predetermined time after the transmission signal permission command is transmitted. As described above, the distance measurement result supplied via the signal line 16 is used to specify this timing.

When receiving the second transmission signal permission instruction, the standby system station stops transmitting the optical signal and determines that the next transmission signal permission instruction is the first transmission signal permission instruction. Rewrite parameters.

Then, the active system station device (the station device used as the active system) transmits an optical signal in which predetermined information is given to the standby system transmission line monitoring command slot 24, and then transmits a transmission signal for the first time. When the permission command is received, the signal transmission is stopped, and when the transmission signal transmission permission command is received for the second time, the signal transmission is restarted (operating as the active system station device). In the optical communication system according to the embodiment, the standby system transmission line monitoring command is automatically transmitted by the active system station device at predetermined time intervals.

In the optical communication system of the embodiment constituted by the devices operating as described above, the state of the protection transmission line can be monitored without stopping the operation of the working station.

For example, the 0-system station device 12₀Is the current system
0 station device 12 ₀At a given time
In advance to instruct execution of monitoring of the standby transmission line
Light with specific contents set in the backup transmission line monitoring instruction slot
The signal is transmitted to the subscriber device 11.

The subscriber unit 11 receiving this optical signal,
As described above, an optical signal in which specific information is set in the transmission signal transmission permission instruction slot is transmitted, and the optical signal is branched by the star coupler 13 and reaches the working station apparatus and the standby station apparatus. I do. Upon reception of the first transmission signal permission command, the active system station device stops the transmission operation, and the standby system transmission line transmits the monitoring information. Therefore, the subscriber device 11 responds to the transmission signal permission command transmission. The received optical signal is an optical signal output from the standby system station device and including information indicating the state of the standby system transmission line.

Since the optical network unit 11 adds the transmission signal transmission permission command to the optical signal and loops back, the active system station apparatus checks the contents of the monitoring information slot in the monitoring information frame, and It will be able to grasp the state of the system transmission line 15 _1.

In the optical communication system of the embodiment, information is transmitted by the time division multiplex transmission system.
The transmission method to which the present invention can be applied is not limited to this. Further, in the optical communication system of the embodiment, the system is configured by using the star coupler, but it may be configured by using other optical branching means. However, PDS (Pa
Originally, when the present invention is applied to a system using a star coupler such as a ssive Double Star transmission system, a star coupler should be used.

A signal line for exchanging distance measurement results between the station devices is not essential even when the present invention is applied to a system for performing time division multiplex transmission.
In the case where a subscriber device is added without providing this signal line, the system may be configured to manually set (notify) the distance information relating to the subscriber device to each station device. However, if this signal line is provided, an optical communication system that does not require manual information setting even when a subscriber device is added is configured.

[0028]

As described above, according to the present invention,
Since the status of the standby transmission line can be monitored during operation, when a failure occurs in the operation transmission line, a situation occurs such that the standby transmission line cannot be used for the first time. And an extremely reliable optical communication system can be obtained.

Further, as in the second aspect of the invention, if the status of the standby transmission line is monitored every predetermined time, a more reliable optical communication system can be obtained. When a time division multiplex transmission system is adopted, if a signal line for exchanging distance information is provided between two station devices as in the invention of claim 5, addition of a subscriber device or the like can be achieved. In this case, an optical communication system can be easily obtained.

[Brief description of drawings]

FIG. 1 is a block diagram illustrating an outline of an optical communication system according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram illustrating an outline of a transmission frame format used in the optical communication system according to the embodiment;

FIG. 3 is a block diagram illustrating an outline of a conventional optical communication system.

[Explanation of symbols]

 REFERENCE SIGNS LIST 11 subscriber unit 12 station device 13 star coupler 14, 15 transmission line 16 signal line 18 optical switching circuit 21 supervisory information frame 22 main information frame 24 standby transmission line supervisory instruction slot 25 transmission signal transmission permission instruction slot 26 supervisory information slot

Claims (5)

[Claims] 1. A judging means for judging whether or not a standby system transmission line monitoring command for instructing monitoring of the standby system transmission line is included in the received optical signal, and the judging means is a standby system transmission monitoring command. And a transmission signal transmission permission command transmitting means for transmitting a transmission signal transmission permission command when it is determined that
A subscriber unit including a transmitting unit that transmits an optical signal received as a response to the transmission by the transmitting unit, and transmits monitoring information that is information indicating the state of the standby transmission line when the transmission signal transmission permission command is received. It is received as a response to the command transmission of the standby system station device equipped with the monitoring information transmitting means, the standby system transmission line monitoring command sending means for sending the standby system transmission line monitoring command, and the standby system transmission line monitoring command sending device. An active system station device including a recognition means for recognizing the state of the standby system transmission line based on the second optical signal; and an optical signal from the subscriber device is supplied to the standby system station device and the active system station device, An optical communication system comprising: an optical circuit for supplying an optical signal from a standby system station device or an active system station device to a subscriber device. 2. The optical system according to claim 1, wherein said protection line transmission command monitoring means provided in said working station device transmits a protection channel transmission command at predetermined time intervals. Communications system. 3. The optical communication system according to claim 1, wherein the optical circuit is a star coupler. 4. The transmission protocol of the optical signal is based on a time division multiplex transmission system.
The optical communication system according to claim 3. 5. Between the active system station device and the standby system station device,
5. The optical communication system according to claim 4, further comprising a signal line for exchanging distance information with the subscriber device.