JP2002077046A - Control data transmission method on optical transmission line, communication controller and communication unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To realize a control method for a communication with simplicity and excellent economy with respect to the method for controlling communication units from a communication controller placed on the way of an optical fiber transmission line in a system for data communication where the optical fiber transmission line interconnects the communication units. SOLUTION: The control method of this invention is configured such that the optical transmission line interconnects the communication units, the communication controller having a means of changing a level of an optical signal on the optical transmission line or superimposing other optical signal on the optical signal is inserted on the way of the optical transmission line, the communication controller when receiving a control request of a communication unit externally changes the level of a signal light on the optical transmission line forcibly or superimposes other optical signal onto the signal light and when the communication unit detects abnormity of an optical input level of the signal light on the optical transmission line or detects out of synchronism of the optical signal, the communication unit recognizes the detected result as a control signal corresponding to each detected abnormity and conducts an operation corresponding to the control signal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a system for performing data communication by connecting communication devices via an optical fiber transmission line.
The present invention relates to a method of controlling a communication device by transmitting a control signal from a communication control device disposed in the middle of the optical fiber transmission line to the communication device, and a communication control device and a communication device used in the method. is there.

[0002]

2. Description of the Related Art Conventionally, there have been two types of methods for controlling a communication device, a method using another control line and a method using a demultiplexing device. FIG. 11 is a diagram illustrating a first example of a conventional method for controlling a communication device. This example shows an example in which a control line other than the optical fiber line for transmitting the main signal is used.

[0003] In the figure, reference numerals 1a and 1b denote user homes, 2a and 2b denote user devices, 3a and 3b denote communication devices, 4 denotes an optical transmission line, 5 denotes a communication station building, 6 denotes a communication control device, and 7 denotes a communication control device. Denotes a communication station building (monitoring control center), 8 denotes an operation system, and 20 denotes a control signal transmission line.

When making a control request to the communication device 3b,
First, the communication system 6
, A control request is made. According to the control request, the communication control device 6 uses the control transmission line 20 to transmit a control signal to the communication device 3b.

FIGS. 12A and 12B are diagrams showing a second example of a conventional method for controlling a communication device, wherein FIG. 12A shows the configuration of a system and FIG. 12B shows the configuration of a communication control device. . This example shows a case where a demultiplexer is used. In this figure, the numerals 1a to 8 are the same as in FIG.
1 denotes an O / E converter, 22 denotes a frame DMUX, 23 denotes a control signal adding unit, 24 denotes a frame MUX, and 25 denotes an E / O converter.

When making a control request to the communication device 3b,
First, the communication system 6
, A control request is made. In accordance with the control request, the communication control device 6 adds a control signal in the control signal adding unit 23. Then, the control signal is transmitted to the communication device 3b using the optical fiber transmission line 4 for the main signal.

[0007]

When the conventional method for controlling a communication device as described above is used, the former method using a separate line for control uses a separate line other than the optical fiber transmission line for the main signal. Was required. In the latter method using a demultiplexer,
In the communication control device, an element capable of once performing frame termination and reconfiguration is required. Therefore, even when it is not necessary to actually perform multiplexing, there is a problem that extra components are required. .

The present invention has been made in view of the above-mentioned conventional problems, and has been made in consideration of a control line other than an optical fiber line for transmitting a main signal,
It is an object of the present invention to provide a system for controlling a communication device by using an optical fiber transmission line for transmitting a main signal for control data transmission without using a demultiplexing device for communication control.

[0009]

According to the invention, the above-mentioned object is solved by the means described in the claims. That is, according to the invention of claim 1, the communication devices are connected by an optical transmission line, and the level of an optical signal on the optical transmission line is changed in the middle of the optical transmission line, or another optical signal is transmitted to the communication device. A communication control device having a means for superimposing an optical signal is inserted, and when the communication control device receives a control request for a communication device from the outside, forcibly performs optical transmission according to the content of the control request. Change the level of the signal light on the road, or superimpose another optical signal, the communication device has detected an abnormality in the optical input level of the signal light on the optical transmission line, or detected out of synchronization of the optical signal This is a method of transmitting control data on an optical transmission line, which recognizes a control signal corresponding to each detected abnormal state and performs an operation corresponding to the control signal.

According to a second aspect of the present invention, the communication devices are connected by an optical transmission line, and a communication control device having a light-emitting element is inserted in the optical transmission line. ,
When receiving a control request of the communication device, the output light of the light emitting element is forcibly superimposed on the signal light on the optical transmission line by using the light emitting device, and the communication device emits the light of the signal light on the optical transmission line. A control data transmission method on an optical transmission line that detects an abnormally high input level or detects out-of-synchronization of an optical signal as a control signal and performs an operation corresponding to the control signal. .

According to a third aspect of the present invention, a communication control device having means for interrupting an optical signal is inserted in the middle of the optical transmission line. However, when a control request for the communication device is received from the outside, the signal light on the optical transmission line is forcibly cut off by using the means for blocking the optical signal, and the communication device This is a method of transmitting control data on an optical transmission line, which detects that the optical signal has been interrupted or detects out-of-synchronization of an optical signal, and recognizes this as a control signal and performs an operation corresponding to the control signal.

According to a fourth aspect of the present invention, communication devices are connected by an optical transmission line, and a communication control device having an optical amplifier is inserted in the middle of the optical transmission line. ,
When receiving a control request for a communication device, the optical amplifier is used to forcibly increase the signal light on the optical transmission line, and the communication device detects that the signal light on the optical transmission line has abnormally increased. Or when detecting out-of-sync of the optical signal,
This is a control data transmission method on an optical transmission line that recognizes this as a control signal and performs an operation corresponding to the control signal.

According to a fifth aspect of the present invention, the communication devices are connected by an optical transmission line, and a communication control device having an optical attenuator is inserted in the middle of the optical transmission line. From
When receiving a control request of the communication device, the optical attenuator is used to forcibly reduce the signal light on the optical transmission line, and the communication device abnormally reduces the input level of the signal light on the optical transmission line. This is a method of transmitting control data on an optical transmission line, which detects the fact that the optical signal is out of synchronization or detects an out-of-synchronization of the optical signal as a control signal and performs an operation corresponding to the control signal.

According to a sixth aspect of the present invention, there is provided a communication control device inserted in the middle of an optical transmission line connecting communication devices, wherein the output light of the light emitting element is superimposed on the signal light on the optical transmission line. And means for interrupting an optical signal on the optical transmission path, means for amplifying the optical signal on the optical transmission path, and at least one means for attenuating the optical signal on the optical transmission path,
A communication control device having means for selecting one of the above means and forcibly changing the signal light on the optical transmission line in response to a request signal from the outside.

According to a seventh aspect of the present invention, there is provided a communication device which is connected to another communication device by an optical transmission line having a communication control device in the middle thereof, wherein the level of signal light on the optical transmission line is At least one of a means for detecting a change and a means for detecting out-of-synchronization of an optical signal is provided to detect a change in the input level of signal light on an optical transmission line or to detect an out-of-synchronization of an optical signal. Then, the communication device has means for recognizing the control signal as a control signal and performing an operation corresponding to the control signal.

According to the present invention, in the above-described configuration, the communication device can be controlled by adopting a method of forcibly changing the signal light level of the optical fiber transmission line transmitting the main signal. I can do it. As a method of changing the level of the signal light, for example, there are a method of increasing the level of the signal light and a method of decreasing the level of the signal light. Further, there are, for example, two methods for increasing the level of the signal light.

As a first method, an optical fiber branching or coupling module such as an optical coupler is used in the middle of an optical fiber transmission line, and a light emitting element such as a laser diode is provided at one end. By using this light emitting element and forcibly superimposing light on signal light, control data is transmitted to a communication device to be controlled. Second, an optical amplifier is installed in the middle of the optical fiber transmission line. By using this optical amplifier to forcibly change the level of the signal light, control data is transmitted to the communication device to be controlled.

As a method of lowering the level of the signal light, for example, there are two methods. First, an optical signal blocking device or a switching device such as an optical switch is provided in the middle of the optical fiber transmission line. By using this light blocking device, signal data is forcibly blocked regardless of the type and state of data flowing on the optical fiber transmission line, so that control data is transmitted to the communication device to be controlled. I do.

Second, an optical attenuator is installed in the optical fiber transmission line. Using this optical attenuator,
The control data is transmitted to the communication device to be controlled by changing the level of the signal light. As a specific data transmission method, for example, there are two types of methods. First, in the case of digital data transmission, a frame is formed so as not to cause a data capture error, but frame synchronization is lost due to a change in signal light level, and this loss of synchronization is used as control data. The second is to use the level change of the signal light itself as control data.

[0020]

The means for forcibly changing the level of the transmission light in the communication control device installed between the communication devices enables the control of the communication device regardless of the type and state of the data. Therefore, the communication device can be controlled without using a control transmission line or a communication control demultiplexing device. Therefore, the object of the present invention is to control a communication device using an optical fiber transmission line for transmitting a main signal and without using a multiplexing / demultiplexing device for communication control.

[0021]

[Embodiment 1] FIG. 1 is a diagram showing a first embodiment of the present invention, in which a light emitting element (LD) is used to increase the level of signal light. 1 shows a configuration of a communication system. In FIG.
1b is a user's home, 2a and 2b are user devices, 3a and 3b
Is a communication device, 4 is an optical transmission line, 5 is a communication station building, 6 is a communication control device, 7 is a communication station building (monitoring control center), 8 is an operation system, 10 is an optical coupler, and 11 is a light emitting element (LD) ) And 12 indicate a control unit, and 13 indicates a reset button.

FIGS. 2A and 2B are diagrams showing examples of data when frame synchronization is lost. FIG. 2A shows an example of encoding of transmitted main signal data, and FIG. 9 shows an example of data when frame synchronization is lost when an optical signal is superimposed. FIG. 3 is a diagram showing an example of data when an optical input level abnormality has occurred,
(A) is an example of encoding the transmitted main signal data,
(B) is an example of data when an optical input level abnormality occurs when an optical signal is forcibly superimposed on the data.

Referring to these figures, the first embodiment of the present invention will be described.
An example will be described. First, an operation system 8 for monitoring and controlling the communication system, a switch 13 attached to the communication control device, or the like is provided to the communication control device 6 installed in the optical fiber transmission line 4 of the communication system. To make a control request. The control request in this case is a reset operation.

Next, the communication control device 6 installed in the middle of the optical fiber transmission line performs an operation corresponding to the control request.
Specifically, the light emitting element 11 such as a laser diode is caused to emit light, and the light is forcibly superimposed on the signal light. There are two types of methods for recognizing forced superimposed light as control data in the communication device to be controlled. First, Figure 2
This is a method for generating frame synchronization loss as shown in FIG.

In this method, out-of-synchronization (bioration) is caused by light forcibly superimposed from the communication control device 6 installed in the middle of the optical fiber transmission line, as shown in FIG. appear. The communication device programs in advance the operation to be performed when frame synchronization is lost. In this case, the frame synchronization loss is programmed as a command for performing a reset operation, so that the communication device to be controlled performs the reset operation in accordance with the control instruction.

The second is a method for generating an optical input level abnormality shown in FIG. In this method, an optical input abnormality as shown in FIG. 3B occurs due to light superimposed on the communication control device installed in the optical fiber transmission line. As in the first method, the communication device programs in advance the operation when an optical input abnormality occurs. In this case, the optical input abnormality is programmed as a command for performing the reset operation, so that the communication device to be controlled performs the reset operation according to the control instruction.

[Second Embodiment] FIG. 4 shows a second embodiment of the present invention, and is a configuration diagram of a communication system in which an optical switch is used to lower the level of signal light. In the figure, reference numerals 1a to 8, 12, and 13 are the same as those in FIG. 1, and reference numeral 14 denotes an optical switch (optical SW). FIGS. 5A and 5B are diagrams showing examples of data when frame synchronization is lost. FIG. 5A shows an example of encoding of transmitted main signal data, and FIG. Are cut off and frame synchronization is lost.

First, in FIG. 4, a communication control device 6 installed in the optical fiber transmission line 4 of the communication system is operated by an operation system 8 or a communication control system for monitoring and controlling the communication system. A control request is issued from a switch 13 or the like attached to the device. The control request in this case is a reset operation. Next, the communication control device installed in the middle of the optical fiber transmission line performs an operation corresponding to the control request.

Specifically, the optical switch 14 is operated,
Forcibly shut off the signal light. In the communication device to be controlled, there are two methods for recognizing, as a control signal, the forcible interruption of the signal light from the communication control device 6 installed on the optical fiber transmission line. The first method is a method of detecting frame loss of synchronization shown in FIG.

In this method, as shown in FIG. 5 (b), frame synchronization is lost (violation) as shown in FIG. 5 (b) due to the interruption of the main signal light interrupted by the communication control device installed in the optical fiber transmission line. . The communication device programs in advance the operation to be performed when frame synchronization is lost. In this case, the frame synchronization loss is programmed as a command for performing a reset operation, so that the communication device to be controlled performs the reset operation in accordance with the control instruction.

Second, as shown in FIG. 6, there is a method of recognizing interruption of light input as a control signal. In this method, as shown in FIG. 6B, the signal light is cut off in the communication control device 6 installed in the middle of the optical fiber transmission line. As in the first method, the communication device is programmed in advance to operate when an optical input is interrupted.
In this case, the interruption of the light input is programmed as a command for performing the reset operation, so that the communication device to be controlled performs the reset operation according to the control instruction.

[Embodiment 3] FIG. 7 is a diagram for explaining a third embodiment of the present invention, and is a configuration diagram of a communication system in which an optical amplifier is used to increase the level of signal light. is there. In the figure, reference numerals 1a to 8, 12, and 13 are the same as those in FIG. 1, and reference numeral 15 denotes an optical amplifier. FIG.
FIG. 7 is a diagram illustrating an example of data when an optical input abnormality has occurred, in which (a) is an example of encoding of transmitted main signal data;
(B) shows an example of the data when the optical input of the communication control apparatus causes an optical input abnormality.

First, an operation system 8 for monitoring and controlling the communication system or a switch attached to the communication control device is provided to a communication control device 6 installed in the optical fiber transmission line 4 of the communication system. 13 and the like, a control request is issued to the communication device 3b to be controlled. The control request in this case is a reset operation.

Next, the communication control device performs an operation corresponding to the control request. Specifically, the optical amplifier 15 is driven to increase the level of the signal light. Due to this operation, as shown in FIG. 8B, an optical input abnormality occurs in the communication device to be controlled. The communication device is programmed in advance to operate when an optical input abnormality occurs. In this case, the optical input abnormality is programmed as a command for performing the reset operation, so that the communication device to be controlled performs the reset operation according to the control instruction.

[Embodiment 4] FIG. 9 is a view for explaining a fourth embodiment of the present invention, and is a configuration diagram of a communication system in which an optical attenuator is used to lower the level of signal light. is there. In the figure, numeral codes 1a to 8, 12,
Reference numeral 13 is the same as in FIG. 1, and reference numeral 16 denotes an optical attenuator. FIGS. 10A and 10B are diagrams showing an example of data when an optical input abnormality has occurred, wherein FIG. 10A is an example of encoding of transmitted main signal data, and FIG. 10B is an example of an optical attenuator of a communication control device. Indicates a case where an optical input abnormality has occurred.

First, in FIG. 9, a communication control device 6 installed on the optical fiber transmission line 4 of the communication system is compared with an operation system 8 or a communication control device attached to the communication control device which monitors and controls the communication system. From the switch 13 and the like to the communication device 3b to be controlled. The control request in this case is a reset operation.

Next, the communication control device performs an operation corresponding to the control request. Specifically, the optical attenuator 16 is driven to lower the level of the signal light. By this operation, FIG.
As shown in (b), an optical input abnormality occurs in a communication device to be controlled. The communication device is programmed in advance to operate when an optical input abnormality occurs. In this case, the optical input abnormality is programmed as a command for performing the reset operation, so that the communication device to be controlled performs the reset operation according to the control instruction.

[0038]

As described above, according to the present invention,
There is an advantage that control signal data can be easily transmitted to a communication device using an optical fiber for transmitting a main signal without using a demultiplexing device.

[Brief description of the drawings]

FIG. 1 is a diagram showing a first embodiment of the present invention.

FIG. 2 is a diagram illustrating an example of data when frame loss of synchronization has occurred.

FIG. 3 is a diagram showing an example of data when an optical input level abnormality occurs.

FIG. 4 is a diagram showing a second embodiment of the present invention.

FIG. 5 is a diagram illustrating an example of data when frame loss of synchronization has occurred.

FIG. 6 is a diagram illustrating a method of recognizing a light input interruption as a control signal.

FIG. 7 is a diagram illustrating a third embodiment of the present invention.

FIG. 8 is a diagram illustrating an example of data when an optical input abnormality occurs.

FIG. 9 is a diagram for explaining a fourth embodiment of the present invention.

FIG. 10 is a diagram illustrating an example of data when an optical input abnormality occurs.

FIG. 11 is a diagram illustrating a first example of a conventional method for controlling a communication device.

FIG. 12 is a diagram illustrating a second example of a conventional method for controlling a communication device.

[Explanation of symbols]

 1a, 1b User home 2a, 2b User device 3a, 3b Communication device 4 Optical transmission line 5 Communication station building 6 Communication control device 7 Communication station building (monitoring control center) 8 Operation system 10 Optical coupler 11 Light emitting element (LD) 12 Control unit 13 Reset button 14 Optical switch 15 Optical amplifier 16 Optical attenuator

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 5K002 AA02 BA06 BA31 CA08 DA01 DA05 DA09 EA06 FA01 GA04 5K034 AA11 AA12 DD01 EE02 FF02 HH01 HH04 KK13 PP00

Claims (7)

[Claims] A communication device is connected by an optical transmission line, and a level of an optical signal on the optical transmission line is changed in the optical transmission line, or another optical signal is superimposed on the optical signal. A communication control device having a means for causing the communication control device to receive a control request for the communication device from the outside when the communication control device externally receives a control request for the communication device. Or to superimpose another optical signal, when the communication device detects an abnormality in the optical input level of the signal light on the optical transmission line, or when detecting the loss of synchronization of the optical signal,
A control data transmission method on an optical transmission line, comprising recognizing a control signal corresponding to each detected abnormal state and performing an operation corresponding to the control signal. 2. An optical transmission line is connected between communication devices, and a communication control device having a light emitting element is inserted in the middle of the optical transmission line, and the communication control device controls the communication device from outside. When receiving the request, the light emitting element is used to forcibly superimpose the output light of the light emitting element on the signal light on the optical transmission path, and the communication device has an abnormal light input level of the signal light on the optical transmission path. A method of transmitting control data on an optical transmission line, wherein when a high level is detected or an out-of-synchronization of an optical signal is detected, this is recognized as a control signal and an operation corresponding to the control signal is performed. 3. An optical transmission line connects communication devices, and a communication control device having means for blocking an optical signal is inserted in the middle of the optical transmission line. When receiving the control request of the communication device, the signal light on the optical transmission line is forcibly cut off by using the means for blocking the optical signal, and the signal light on the optical transmission line is cut off by the communication device. Or detecting an out-of-synchronization of an optical signal as a control signal, and performing an operation corresponding to the control signal. 4. A communication device is connected by an optical transmission line, a communication control device having an optical amplifier is inserted in the middle of the optical transmission line, and the communication control device controls the communication device from outside. When a request is received, the optical amplifier is used to forcibly increase the signal light on the optical transmission line, and the communication device detects that the signal light on the optical transmission line has abnormally increased, or A method of transmitting control data on an optical transmission line, comprising detecting an out-of-synchronization of a signal as a control signal and performing an operation corresponding to the control signal. 5. A communication device is connected by an optical transmission line, and a communication control device having an optical attenuator is inserted in the middle of the optical transmission line. When receiving a control request, the optical attenuator is used to forcibly reduce the signal light on the optical transmission line, and the communication device detects that the input level of the signal light on the optical transmission line has abnormally decreased. Or a method of transmitting control data on an optical transmission line, wherein when an out-of-synchronization of an optical signal is detected, this is recognized as a control signal and an operation corresponding to the control signal is performed. 6. A communication control device inserted in the middle of an optical transmission line connecting communication devices, the communication control device comprising: means for superimposing output light of a light emitting element on signal light on the optical transmission line; Means for interrupting the optical signal, means for amplifying the optical signal on the optical transmission path, and means for attenuating the optical signal on the optical transmission path, comprising at least one means, and in response to a request signal from the outside, A communication control device comprising means for selecting one of the above means and forcibly changing the signal light on the optical transmission line. 7. A communication device connected to another communication device by an optical transmission line having a communication control device in the middle thereof, wherein a means for detecting a level change of signal light on the optical transmission line. When,
It comprises at least one of means for detecting out-of-synchronization of the optical signal, and detects that the input level of the signal light on the optical transmission line has changed, or when the out-of-synchronization of the optical signal is detected, sends a And a means for performing an operation corresponding to the control signal.