JPH08223223A - Alarm transfer system - Google Patents

Abstract

PURPOSE: To allow a transmitter being a component of a network where various services are mixed to transfer alarm in the alarm transfer system of the transmitter. CONSTITUTION: A transmitter is provided with a receiver side interface section and a transmitter side interface section at its interface sections 1, 2 at both ends and with a multiplexer demultiplexer conversion section 3 at its middle so as to receive the connection of different kinds of the services at the transmitter side and the receiver side. When the receiver side interface section of the transmitter as above detects a fault signal based on the occurrence of a fault of a transmission channel or the like, the interface section raises an alarm in a format of service information contained in the receiver side and the alarm is transferred to another transmitter side interface section via the multiplexer demultiplexer conversion section 3. When the transmission interface section detects the alarm, the alarm is converted into an alarm in a format of service information accommodated in the transmitter side and the resulting alarm is outputted to a transmission path.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an alarm transfer system in a transmission device, and more particularly to an alarm transfer system in a communication transmission device forming a network in which various services are mixed.

Asynchronous Transfer Mode
A communication transmission device that forms a network in which various services such as an existing telephone network and a high-speed digital network coexist is considered, including r Mode (ATM) service.

In such a transmission apparatus in which different services coexist, a frame
It is necessary to do a format conversion so that alerts can be forwarded.

[0004]

2. Description of the Related Art At present, as a required technology, there is an existing telephone network and a transmission device capable of economically accommodating different services such as a digital line and a high speed leased line. In particular, in the case of subscriber devices that provide different services to subscribers, rather than independently establishing a transmission path for each service between the devices, for example, optical digital transmission is performed up to the subscriber device. It is considered to be more economical to convert the data of each service, separate the data, and transmit the data to the subscriber via each service path.

In this case, for example, a synchronous transfer mode (Synchr
onous Transfer Mode (STM) frame data,
A frame format conversion technique between different data such as conversion into ATM frame data is required. Heretofore, such frame format conversion has been performed for information data (user cells), but for alarm information, it is possible to change between different services.
The conversion of the frame format and the transfer to the end of the transmission line have not been performed.

FIG. 4 shows an example of a conventional alarm transfer inside the device, and illustrates an alarm transfer in the transmission device 40 in which the ATM service and the STM service coexist. Indicates the detection of an alarm state, ○ indicates the generation of an alarm, and ▲ indicates the end of the alarm.

In FIG. 4, the receiving interface (IF) unit 41 side of the transmission device 40 connects the ATM service, and the transmitting interface (IF) unit 43 side,
The STM service and the ATM service are simultaneously multi-connected, and the switch unit 42 switches the routes to connect them. At this time, each interface (IF) unit performs format conversion and alarm processing of each service.

In such an apparatus, the receiving ATM
In the service, if a transmission line failure occurs, the reception IF
The failure signal (Loss of Signal:
LOS) is detected, V as an alarm of ATM service
P-AIS (Virtual Path-Alarm Indication Signal)
Issue a cell. This alarm is directly transferred to the ATM service on the transmitting side via the transmission interface circuit 44 to which the ATM service is connected. However,
In the transmission interface circuit 45 to which the STM service is connected, the VP-AIS cell is terminated, so that the alarm is not transferred to the STM service.

[0009]

As described above, in the transmission apparatus in which different services coexist, there has been a problem that an alarm cannot be transferred between different services.

The present invention is intended to solve such a problem of the prior art, and enables a transmission device in which different services are mixed to efficiently transfer an alarm between different services. Is intended.

[0011]

[Means for Solving the Problems]

(1) Receiving side interface section that has a function of processing the overhead part of the information input from the transmission path, a function of detecting a failure signal, and a function of issuing an alarm based on the detection of the failure signal; Has at both ends a first and a second interface section consisting of a transmitting side interface section having a function of converting the format of the above and outputting to a transmission path, and separating the multiplexed service from the receiving side interface. Transmission including a demultiplexing / conversion unit 3 having a function of allocating to a transmitting side interface and a function of multiplexing a service from the transmitting side interface and accommodating it in a receiving side interface In the equipment, when connecting different types of service interfaces on the sending side and the receiving side, transmission line failure When a failure signal is detected in the receiving side interface section based on the above, an alarm of the format of the information of the service accommodated in the receiving side is generated, transferred to the transmitting side interface section via the demultiplexing conversion section, and the transmitting interface When the unit detects this alarm, it converts this alarm into an alarm in the format of the information of the service accommodated on the transmission side and outputs it to the transmission path.

(2) In the case of (1), A is set on the receiving side of the transmission device.
In the case of accommodating the TM service and accommodating the STM service in the transmission side, when a failure signal is detected in the reception side interface section, a VP-AIS cell is generated, and the transmission side interface section is passed through the demultiplexing conversion section 3. When the VP-AIS cell is detected by the transmission side interface unit, the VP-AIS cell is converted into AIS, and is output to be output to the transmission path.

(3) In the case of (1), S is sent to the receiving side of the transmission device.
In the case of accommodating the TM service and accommodating the ATM service in the transmitting side, when a failure signal is detected in the receiving side interface section, an AIS is generated and transferred to the transmitting side interface section via the demultiplexing conversion section, When this AIS is detected by the transmission interface unit, this AIS is detected by VP-A.
It is converted into an IS cell, emitted, and output to the transmission path.

[0014]

FIG. 1 shows the basic configuration of the present invention. In the figure, first and second interface units 1 and 2 have a function of processing an overhead portion of information input from a transmission path, a function of detecting a failure signal, and an alarm based on the detection of the failure signal. It comprises a receiving side interface section having a function of issuing the information, and a transmitting side interface section having a function of converting the format of information and outputting to the transmission path. In addition, the demultiplexing conversion unit 3
Is a function that separates the multiplexed service from the receiving side interface and distributes it to the transmitting side interface,
It has a function of multiplexing services from the transmitting side interface and accommodating them in the receiving side interface.

For example, in the transmission device, the receiving side is A
When the TM service is connected and the alarm is transferred while the transmitting side is connecting the STM service, the VP-AIS cell which is the alarm of the ATM service is transferred to the interface of the transmitting side, and the VP (Virtual Path) is transmitted here. ) And a function for issuing an AIS which is an alarm of the STM service based on the VP-AIS cell is provided.
Convert to TM service alert and transfer.

According to the present invention, the alarm can be transferred through to the interface on the transmission side inside the apparatus, so that the alarm can be transferred efficiently. Further, the VP-AIS cell detection circuit of the transmission interface unit can use the circuit used in the conventional ATM transmission device as it is, so that the circuit can be shared.

[0017]

EXAMPLE FIG. 2 shows an example (1) of the present invention. The transmission device 10 has an interface unit at both ends and a switch unit in the middle, and has a function of connecting different services on both sides for bidirectional transmission, but the description will be simplified here. For this purpose, the receiving side connects the ATM service through the receiving interface (IF) unit 11, and the transmitting side connects the transmitting interface (IF) unit 13
It shows a state in which the STM service and the ATM service are connected via the.

In FIG. 2, the reception IF unit 11 is an ATM.
It processes the overhead portion of the information input from the service transmission path, detects a failure signal, and issues an ATM service alarm based on the detection of the failure signal. The switch unit 12 separates the multiplexed service from the receiving side interface and distributes it to the transmitting side interface, and also multiplexes the service of the transmitting side interface and stores it in the receiving side interface. The transmission side IF unit 13 detects the information input from the switch unit 12 and converts the format of the information,
Output to STM service and ATM service.

When a failure (transmission path disconnection) occurs in the receiving side ATM service, the receiving IF section 11
The failure signal LOS is detected. As a result, the reception IF unit 1
1 generates a VP-AIS cell which is an ATM service alarm, and this information is transmitted via the switch unit 12 to the transmission I.
It is transferred to the F section 13. In the transmission IF unit 13, the detector 16 in the transmission interface (IF) circuit 14 of the STM service detects a VP-AIS cell, the generator 17 converts the format of the VP-AIS cell, and S
Generate P-AIS which is an alarm of TM service, and
It issues to the opposite device 20 of the M service. On the other hand, in the ATM service transmission interface (IF) circuit 15, V
The P-AIS cell is transferred as it is, and this information is
It is transferred to the terminal point of the opposite device 21 of the service.

FIG. 3 shows an embodiment (2) of the present invention. The transmission device 30 has an interface section at both ends and a switch section in the middle to connect different services on both sides and has a function of bidirectionally transmitting, but the description will be simplified here. Therefore, the receiving side connects the STM service via the receiving interface (IF) unit 31, and the transmitting side connects the transmitting interface (IF) unit 3
3 shows a state in which the ATM service and the STM service are connected via the S.

In FIG. 3, the reception side IF unit 31 has an ST
The format of information input from the transmission path of the M service is converted, a failure signal is detected, and an alarm is issued based on the detection of the failure signal. The switch unit 32 multiplexes the services of the transmission side interface and stores them in the reception side interface, separates the multiplexed services from the reception side interface, and distributes them to the transmission side interface. The transmitting IF unit 33 detects the information input from the switch unit 32, converts the format of the information, and outputs the information to the ATM service and the STM service.

Now, when a failure (transmission line disconnection) occurs in the receiving side STM service, the receiving IF section 31
The failure signal LOS is detected. As a result, the reception IF unit 3
The P-AIS which is the alarm of the STM service is generated from 1 and this information is transferred to the transmission IF unit 33 via the switch unit 32. In the transmission IF unit 33, the detector 36 in the ATM service transmission interface (IF) circuit 35 detects the P-AIS, and the generator 37 detects the P-AIS.
Of the ATM service is generated to generate a VP-AIS cell as an alarm of the ATM service, and the VP-AIS cell is issued to the opposite device 21 of the ATM service. On the other hand, the transmission interface (IF) circuit 34 of the STM service transfers the P-AIS as it is, and this information is transferred to the termination point of the opposite device 20 of the STM service.

[0023]

As described above, according to the present invention, in the transmission device in which different services are mixed, the alarm is transferred to the interface section on the transmitting side, and the alarm of the different service is newly issued. , It becomes possible to efficiently transfer alerts even between different services.

[0024]

[Brief description of drawings]

FIG. 1 is a diagram showing a principle configuration of the present invention.

FIG. 2 is a diagram showing an embodiment (1) of the present invention.

FIG. 3 is a diagram showing an embodiment (2) of the present invention.

FIG. 4 is a diagram showing an example of alarm transfer inside a conventional device.

[Explanation of symbols]

 1 interface section 2 interface section 3 demultiplexing conversion section

Claims (3)

[Claims] 1. A receiving side interface section having a function of processing an overhead portion of information input from a transmission path, a function of detecting a failure signal, and a function of issuing an alarm based on the detection of the failure signal. And the first and second interface units 1 and 2 having a function of converting the format of information and outputting to the transmission path and having a function of transmitting side, and multiplexed from the receiving side interface. The demultiplexing / conversion unit 3 having a function of separating the separated services and distributing them to the transmitting side interface and a function of multiplexing the services from the transmitting side interface and accommodating them in the receiving side interface are the first and second interface units. In the transmission device provided in the middle of the above, different types of service interfaces are connected on the sending side and the receiving side. When a failure signal is detected in the receiving side interface section based on a transmission path failure or the like, a warning of the information format of the service accommodated in the receiving side is issued and the signal is passed through the demultiplexing / converting section. It is characterized in that the alarm is transferred to the transmitting side interface unit, and when the alarm is detected by the transmitting interface unit, the alarm is converted into an alarm in the format of information of the service accommodated in the transmitting side and output to the transmission path. Alarm transfer method. 2. The alarm transfer system according to claim 1, wherein the receiving side of the transmission device accommodates an ATM service,
When the transmission side accommodates the STM service, when a failure signal is detected by the reception side interface unit, VP-
When an AIS cell is generated and transferred to the transmission side interface section through the demultiplexing conversion section and the VP-AIS cell is detected by the transmission side interface section, the VP-AI is detected.
An alarm transfer method characterized in that S cells are converted into AIS, emitted, and output to a transmission path. 3. The alarm transfer method according to claim 1, wherein an STM service is accommodated on the receiving side of the transmission device,
When the ATM service is accommodated on the transmission side, when the failure signal is detected by the reception side interface unit, the AIS
Is generated and transferred to the transmission side interface section via the demultiplexing / conversion section, and the AIS is generated at the transmission interface section.
When this is detected, the AIS is converted into a VP-AIS cell, the cell is issued and output to a transmission path.