JPH10336120A - Optical transmission system using bidirectional module - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical transmission system which is sufficiently protected even when 'disconnection' occurs on an optical line and which also has a simple system structure and whose facility cost is inexpensive. SOLUTION: This optical transmission system performs multiple node connections of optical transmission devices 10A and 10B through 1st and 2nd bidirectional lines 11 and 12 which consist of optical transmission lines that send bidirectional optical data in a single optical fiber by using a bidirectional optical module. In such cases, one direction of the line 11 is used as a current line that performs data insertion, and the other direction is used as a protection line. Also, one direction of the line 12 is used as a protection line and the other direction is used as a current line. When the line 11 is disconnected, data of the line 11 is inserted into the protection line of the line 12 and transmitted, and when the line 12 is disconnected, data of the line 12 is inserted into the protection line of the line 11 and transmitted.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical transmission system using a bidirectional optical module, and more particularly, to an optical transmission system capable of transmitting bidirectional optical data with a single optical fiber by using a bidirectional optical module. A bidirectional optical module having a line protection configuration in which a plurality of optical transmission devices are connected to multiple nodes via a first bidirectional line and a second bidirectional line composed of transmission paths, or a two-fiber ring transmission configuration is used. The present invention relates to an optical transmission system.

[0002]

2. Description of the Related Art FIG. 3 is a diagram showing an example of a conventional optical transmission system, and is a block diagram showing an optical transmission system having a line protection configuration in which optical transmission devices are connected to multiple nodes.

In FIG. 3, a node (NODE) 30
A, a node (NODE) 30B is an ADM (Add / Drop Multiplexer) for inserting and separating a tributary (subordinate) signal or relaying a passing signal.
Device. Each ADM device has a switching unit X
a and Xb, working optical units Ya and Yb, and spare optical units Za and Zb, respectively.

Data is inserted into the working line 32 of the node 30A and the working line 31 of the node 30B at the nodes 30A and 30B, respectively. The protection line 34 of the node 30A and the protection line 33 of the node 30B are used as protection lines for the working lines 32 and 31.

[0005] As shown by a cross in the figure, if a "break" occurs in the working line 31 of the node 30B, the node 3
The working line 31 of 0B is protected by the protection line 33 of the node 30B. That is, the data is stored in the spare optical unit Zb and the spare line 3 as indicated by the broken line in the figure.
3, transmitted via the spare optical unit Za.

FIG. 4 is a diagram showing another example of a conventional optical transmission system, and is a block diagram showing an optical transmission system having a two-fiber ring transmission configuration in which optical transmission devices are connected to multiple nodes. The type of the ring transmission system may be either UPSR (Unidirectional Path Switched Ring) or BLSR (Bidirectional Line Switched Ring).

In FIG. 4, a node (NODE) 40A
... Node (NODE) 40D is a ring device for inserting or separating a tributary (subordinate) signal or relaying a passing signal. Lines 41 and 42 indicate lines for transmitting main signal data and overhead data between nodes 40A and 40D.

[0008] As shown by a cross in the figure, when a "break" occurs in the line 41, the main signal at the pass level is rescued through the protection line, but the overhead between the node 40A and the node 40D is reduced. Will be disconnected without relief.

[0009]

The above-described optical transmission systems according to the prior art each have the following problems.
First, in the optical transmission system having the line protection configuration shown in FIG. 3, the protection optical unit Z corresponds to the working optical units Ya and Yb and the working lines 31 and 32.
Since a and Zb and the spare lines 33 and 34 are always required, there is a problem that the configuration of each ADM device and thus the entire system becomes complicated.

Second, in the optical transmission system having the two-fiber ring configuration shown in FIG.
When the optical line between 0D is "cut", there is a problem that the main signal is rescued but the overhead is disconnected.

An object of the present invention is to provide an optical transmission system using a bidirectional optical module, which can provide sufficient protection even if a "break" occurs in an optical line, has a simple system configuration, and requires low equipment costs. It is to provide a system.

[0012]

In order to solve the above-mentioned problems, an optical transmission system using a bidirectional optical module according to the present invention uses a bidirectional optical module.
A light having a line protection configuration in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the second direction is the same direction as the one direction of the first bidirectional line. One direction is used as a protection line, and the other direction is used as a working line for inserting data. When a "break" occurs in the first bidirectional line, the data of the first bidirectional line is transferred to the second line. When the transmission is performed by inserting the signal into the protection line of the two bidirectional lines, and / or when "disconnection" occurs in the second bidirectional line, The data of two bi-directional line first
Transmission is performed by inserting it into a protection line of a bidirectional line.

An optical transmission system using a bidirectional optical module according to another aspect of the present invention is an optical transmission system that can transmit bidirectional optical data over a single optical fiber by using a bidirectional optical module. In an optical transmission system having a two-fiber ring transmission configuration in which optical transmission devices are connected to multiple nodes via a first bidirectional line and a second bidirectional line formed of transmission paths, one direction of the first bidirectional line is data. It is used as a working line for insertion, the other direction is used as a protection line, the one direction of the second bidirectional line, which is the same direction as the one direction of the first bidirectional line, is used as a protection line, and the other direction is data. When the line is used as a working line to be inserted and the first bidirectional line is disconnected, the data of the first bidirectional line is When data is inserted into the protection line of the second bidirectional line and transmission is performed, and / or when "disconnection" occurs in the second bidirectional line, the data of the second bidirectional line is transmitted to the first bidirectional line. It is inserted into the protection line for transmission.

[0014]

FIG. 1 is a diagram showing a configuration of an optical transmission system using a bidirectional optical module according to a first embodiment (best embodiment) of the present invention.

FIG. 1 shows that a first bidirectional line 11 and a second bidirectional line 12 each composed of an optical transmission line capable of transmitting bidirectional optical data through a single optical fiber by using a bidirectional optical module. 1 shows an optical transmission system having a line protection configuration in which optical transmission devices are connected to each other via multiple nodes.

In FIG. 1, a node (NODE) 10
A and the node (NODE) 10B are optical transmission devices having an ADM configuration. Each optical transmission device includes switching units Va and Vb and optical units Wa and Wb. The transmission speed of the first bidirectional line 11 and the second bidirectional line 12 composed of two optical fibers connecting between the optical transmission devices is STM-N (N is a positive integer).

One direction of the first bidirectional line 11 is used as a working line for inserting data. The other direction of the first bidirectional line 11 is used as a protection line for the working data of the second bidirectional line 12.

One direction of the second bidirectional line 12 (the same direction as the one direction of the first bidirectional line 11) is used as a protection line for the working data of the first bidirectional line 11. The other direction of the second bidirectional line 12 (the same direction as the other direction of the first bidirectional line 11) is used as a working line for inserting data.

When a "disconnection" occurs at a location indicated by a cross on the first bidirectional line 11 due to some kind of failure, the data of the first bidirectional line 11 transmitted from the node 10B to the node 10A is replaced by a broken line. As shown by, the data is inserted into the protection line of the second bidirectional line 12 and transmitted.

Contrary to the above, when a "break" occurs in the second bidirectional line 12, the data of the second bidirectional line 12 is inserted into the protection line of the first bidirectional line 11 for transmission. .

According to the optical transmission system of the first embodiment shown in FIG. 1, when the optical line is "cut", the optical line is switched to the protection line. At this time, a new optical cable is not used as the protection line. Therefore, the spare optical units Za and Z as shown in the conventional example
Since b and the like are not required at all, the configuration is simplified.

FIG. 2 is a diagram showing a configuration of an optical transmission system using a bidirectional optical module according to a second embodiment (best embodiment) of the present invention.

FIG. 2 shows that a first bidirectional line 21 and a second bidirectional line 22 which are optical transmission lines capable of transmitting bidirectional optical data with a single optical fiber by using a bidirectional optical module. 1 shows an optical transmission system having a two-fiber ring configuration in which optical transmission devices are connected to each other via multiple nodes.

In FIG. 2, a node (NODE) 20A
-Node (NODE) 20D is a ring optical transmission device having an ADM configuration. Each optical transmission device includes a switching unit, an optical unit, and the like.
A first bidirectional line 21 and a second bidirectional line 22 composed of two optical fibers connecting between each optical transmission device
Is STM-N (N is a positive integer).

One direction of the first bidirectional line 21 is used as a working line for inserting data. The other direction of the first bidirectional line 21 is used as a protection line for the working data of the second bidirectional line 22.

One direction of the second bidirectional line 22 (the same direction as the one direction of the first bidirectional line 11) is used as a protection line for the working data of the first bidirectional line 21. The other direction of the second bidirectional line 22 (the same direction as the other direction of the first bidirectional line 11) is used as a working line for inserting data.

When "disconnection" occurs at a location indicated by a cross in the first bidirectional line 21 due to some kind of failure, the data of the first bidirectional line 21 transmitted from the node 20D to the node 20A is replaced by a broken line. As shown by, transmission is performed by inserting the protection line of the second bidirectional line 22 into the protection line.

Conversely, when a "break" occurs in the second bidirectional line 22, the data of the second bidirectional line 22 is inserted into the protection line of the first bidirectional line 21 for transmission. .

According to the optical transmission system of the second embodiment shown in FIG. 2, communication between the optical transmission devices is ensured even when one of the lines is "cut", so that overhead can be saved. It becomes possible.

The above-described embodiments can be summarized as follows: [1] The optical transmission system using the bidirectional optical module shown in the first embodiment uses the bidirectional optical module to form a single optical transmission system. First bidirectional line 11 composed of an optical transmission line capable of transmitting bidirectional optical data through an optical fiber
And the optical transmission device 10 via the second bidirectional line 12
In the optical transmission system having a line protection configuration in which A, 10B... Are connected in multiple nodes, one direction of the first bidirectional line 11 is used as a working line for inserting data, and the other direction is used as a protection line. One direction of the second bidirectional line 12 which is the same direction as one direction of the first bidirectional line 11 is used as a protection line, and the other direction is used as a working line for inserting data. "Disconnect"
Occurs, the data of the first bidirectional line 11 is inserted into the protection line of the second bidirectional line 12 for transmission, and / or a "break" occurs in the second bidirectional line 12. In this case, the data of the second bidirectional line 12 is inserted into the protection line of the first bidirectional line 11 for transmission.

In the optical transmission system described above, when a “break” occurs in the first bidirectional line 11, the data of the first bidirectional line 11 is inserted into the protection line of the second bidirectional line 12. When the data is transmitted and "cut" occurs in the second bidirectional line 12, the data of the second bidirectional line 12 is inserted into the protection line of the first bidirectional line 11 and transmitted. Does not require a new optical cable as a protection line. This eliminates the need for a spare optical unit, which was conventionally required, and can reduce the system scale. In addition, since expensive optical units can be reduced, it is possible to significantly reduce costs.

[2] In the optical transmission system using the bidirectional optical module described in the second embodiment, bidirectional optical data can be transmitted with a single optical fiber by using the bidirectional optical module. In an optical transmission system of a two-fiber ring transmission configuration in which optical transmission devices 20A to 20D are connected to multiple nodes via a first bidirectional line 21 and a second bidirectional line 22, each of which is an optical transmission path that enables transmission,
One direction of the first bidirectional line 21 is used as a working line for inserting data, the other direction is used as a protection line, and the second bidirectional line is in the same direction as one direction of the first bidirectional line 21. One direction 22 is used as a protection line, the other direction is used as a working line for inserting data, and when "disconnection" occurs in the first bidirectional line 21, the data of the first bidirectional line 21 is used as the protection line. When transmission is performed by inserting the data into the protection line of the second bidirectional line 22, and / or when "disconnection" occurs in the second bidirectional line 22, the data of the second bidirectional line 22 is transferred to the first bidirectional line 22. Transmission is performed by inserting the protection line of the bidirectional line 21 into the protection line.

In the above-described optical transmission system, when a “break” occurs in the first bidirectional line 21, the data of the first bidirectional line 21 is inserted into the protection line of the second bidirectional line 22. When the data is transmitted and "break" occurs in the second bidirectional line 22, the data of the second bidirectional line 22 is inserted into the protection line of the first bidirectional line 21 and transmitted, so that one of the lines is Even in the "disconnected" state, communication between the ring-type optical transmission devices is secured, and overhead can be relieved. That is, in the past, when a line fault occurred, the overhead was interrupted because there was no spare optical line, whereas in the present embodiment, the optical line was rescued when a fault occurred, Overhead interruptions are avoided.

[0034]

According to the present invention, an optical transmission system using a bidirectional optical module having the following functions and effects can be obtained.

(1) When the present invention is applied to an optical transmission system having a line protection configuration, a new optical cable is not required as a protection line for the occurrence of a failure, so that a spare optical unit is not required. As a result, the configuration of the system is simplified, and the system scale can be reduced. In addition, since expensive optical units can be reduced, equipment costs can be reduced, and significant cost reduction can be achieved.

(2) When applied to an optical transmission system having a two-fiber ring configuration, even if a failure occurs in one bidirectional line, it is relieved by the other bidirectional line.
Despite the absence of a spare light line, interruption of the overhead is avoided and a sufficient protection function can be exhibited.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of an optical transmission system using a bidirectional optical module according to a first embodiment of the present invention.

FIG. 2 is a block diagram illustrating a configuration of an optical transmission system using a bidirectional optical module according to a second embodiment of the present invention.

FIG. 3 is a block diagram showing an example of an optical transmission system according to a conventional example.

FIG. 4 is a block diagram showing another example of the optical transmission system according to the conventional example.

[Explanation of symbols]

10A, 10B, 20A-20D nodes (NOD
E) 11, 21 First bidirectional line 12, 22 Second bidirectional line Va, Vb Switching unit Wa, Wb Optical unit

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁶ Identification code FI H04B 10/13 10/12 10/28 10/26 10/04 10/06

Claims (6)

[Claims] (1) By using a bidirectional optical module,
A line protection optical system in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the second direction is the same direction as one direction of the first bidirectional line. One direction is used as a protection line, and the other direction is used as a working line for inserting data. When a "break" occurs in the first bidirectional line, the data of the first bidirectional line is used as the protection line. When the transmission is performed by inserting the signal into the protection line of the two bidirectional lines, and the “disconnection” occurs in the second bidirectional line, the second bidirectional line is transmitted. An optical transmission system using a bidirectional optical module, characterized in that line data is inserted into a protection line of the first bidirectional line for transmission. 2. The use of a bidirectional optical module,
A line protection optical system in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the second direction is the same direction as one direction of the first bidirectional line. One direction is used as a protection line, and the other direction is used as a working line for inserting data. When a "break" occurs in the first bidirectional line, the data of the first bidirectional line is used as the protection line. An optical transmission system using a bidirectional optical module, wherein the optical transmission system is inserted into a two-way protection line for transmission. 3. The use of a bidirectional optical module,
A line protection optical system in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the second direction is the same direction as one direction of the first bidirectional line. One direction is used as a protection line, the other direction is used as a working line for inserting data, and when a “break” occurs in the second bidirectional line, the data of the second bidirectional line is used as the protection line. An optical transmission system using a bidirectional optical module, wherein the optical transmission system is inserted into a protection line of one bidirectional line for transmission. 4. By using a bidirectional optical module,
A two-fiber ring transmission configuration in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the optical transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the one direction is the same direction as the one direction of the first bidirectional line. 2. One direction is used as a protection line in one direction, and the other direction is used as a working line for inserting data. When "disconnection" occurs in the first bidirectional line, data in the first bidirectional line is used. Transmission is performed by inserting the signal into the protection line of the second bidirectional line, and when "disconnection" occurs in the second bidirectional line, the second bidirectional line is transmitted. An optical transmission system using a bidirectional optical module, characterized in that line data is inserted into a protection line of the first bidirectional line for transmission. 5. By using a bidirectional optical module,
A two-fiber ring transmission configuration in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the optical transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the one direction is the same direction as the one direction of the first bidirectional line. 2. One direction of the two-way line is used as a protection line, the other direction is used as a working line for inserting data, and when "disconnection" occurs in the first direction line, the data of the first direction line is transmitted. An optical transmission system using a bidirectional optical module, wherein the optical transmission system is inserted into a protection line of the second bidirectional line to perform transmission. 6. By using a bidirectional optical module,
A two-fiber ring transmission configuration in which an optical transmission device is connected to multiple nodes via a first bidirectional line and a second bidirectional line, which are optical transmission lines capable of transmitting bidirectional optical data over a single optical fiber. In the optical transmission system, one direction of the first bidirectional line is used as a working line for inserting data, the other direction is used as a protection line, and the one direction is the same direction as the one direction of the first bidirectional line. 2. One direction of the two-way line is used as a protection line, and the other direction is used as a working line for inserting data. When "cut" occurs in the second direction line, the data of the second direction line is transmitted. An optical transmission system using a bidirectional optical module, wherein the optical transmission system is inserted into a protection line of the first bidirectional line to perform transmission.