KR100575957B1 - Maintenance and method of service in transmission device_ - Google Patents

Abstract

end. The technical field to which the invention described in the claims belongs

The present invention relates to a device and a method for maintaining a service in a transmission device.

I. The technical problem to be solved by the invention

Provided are an apparatus and a method for maintaining a service even when a main control unit operates abnormally or is dismounted in a transmission apparatus.

All. Summary of Solution of the Invention

The apparatus of the present invention for maintaining a service in a transmitting apparatus includes a main controller for controlling the overall operation of the transmitting apparatus, and data received from a lower apparatus of the transmitting apparatus in combination with the transmitted data to be transmitted to another switching system; A branch combiner for branching data received from the other switching system and outputting the data to the lower device, and performing control to maintain a service when the main controller is detached, fails to operate or operates abnormally. An auxiliary control unit having a backup memory for storing data according to a service change received from the service unit; and interface data transmitted / received between the main control unit and the branch coupling unit, and checking whether or not an error occurs in the main control unit. The auxiliary control unit It consists of the main control connection part which outputs.

la. Important uses of the invention

Used for transmission device.

Description

Service maintenance and method in the transmission

The present invention relates to an apparatus and a method for maintaining a service in a transmission apparatus, and more particularly, to an apparatus and a method for maintaining a service in the event of a failure of the transmission apparatus.

Typically, a transmission device is a device that transmits data between stations of a switch or connects between a switching system and a subscriber. Such transmission devices are classified into linear structure, annular structure and complex structure according to the connection method. In addition, the transmission apparatus has various transmission apparatuses according to transmission methods and transmission speeds, and each transmission apparatus is connected to and operated with another transmission apparatus or a switching system. Among the transmitters, the configuration of the optical transmitter will be described below. The optical receiving board for receiving data from the transmitter of the west and the optical transmitting board for transmitting are respectively provided in duplicate, and the optical receiving board for receiving data from the transmitting apparatus connected to the east and the optical transmitting board for transmitting Each is provided redundant. In addition, a branch coupler for branching and combining the transmitted data is connected, and a main control board for monitoring and controlling the operation of the transmission device and a board for processing a data control channel (DCC) are mounted and mounted. It becomes a transmission device. When the transmission device is configured as described above, the branch coupling unit performs only branch coupling, and when an alarm occurs, the line is switched or the processing and control operation of the alarm is performed by the main control device of the main control board.

The main control board of such a transmission device can be configured in two ways. First, there is a method of configuring a main control board using only one processor, and second, a method of configuring two main control boards with two processors. In the first method, since there is only one processor, only the main control board operates in the operation mode. In the second method, two processors are mounted on two boards, so that one board operates in an operation mode and the other in a standby mode. In the second case, when one board fails or hernia occurs, the service is continuously performed on the other board.

In the first case, the main control board may fail or the operator may leave the main control board for testing. If it is necessary to perform the transfer due to the failure of a specific line at this time, the branch coupling unit cannot perform such control, so it performs only the operation of continuously maintaining the service. As a result, the service of the subscriber was interrupted or the quality of the service was very poor.

In the second case, if one board fails and the other board fails, or if one board fails and another board fails, the same problem as the first may occur. In this case, there was a problem in that the service of the subscriber was interrupted or the quality of service was very poor.

As described above, since the branch coupling part of the transmission device is configured to perform simple branch coupling only, when switching is necessary in a situation in which the main control board does not operate normally, there is a problem in that the service is disconnected.

Accordingly, an object of the present invention is to provide an apparatus and method for maintaining a service even in a situation in which the main control board does not operate normally in a transmission apparatus.

The apparatus of the present invention for achieving the above object, the main control unit for controlling the overall operation of the transmission device, and the data received from the lower device of the transmission device combined with the transmitted data to transmit to another switching system or the A branch combiner for branching data received from another exchange system and outputting the data to the lower device, and performing control to maintain a service when the main controller is disconnected, fails to operate or operates abnormally. An auxiliary control unit having a backup memory for storing data according to a received service change, and interface data transmitted / received between the main control unit and the branch coupling unit, and checking whether or not an error occurs in the main control unit. To output the operation signal to the controller It consists of a main control connection.

The present invention for achieving the above object is to maintain the service in the main control connection for performing the interface between the auxiliary control unit and the main control unit and the branch coupling unit and the auxiliary control unit when the main control unit of the transmission device abnormal operation; As a method for receiving the data, the first step of storing the data in accordance with the service change in the backup memory of the auxiliary control unit, the second step of checking whether or not the main control unit, and the abnormal control unit A third step of checking whether it is maintained for a predetermined time when the predetermined value is maintained; and when an abnormality of the main control unit is maintained for a predetermined time or more, outputting an operation signal to the auxiliary control unit to proceed to the service maintenance mode by the auxiliary control unit; It is characterized by consisting of steps.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a transmission apparatus according to a preferred embodiment of the present invention. Hereinafter, a block configuration and operation of a transmission apparatus according to the present invention will be described in detail with reference to FIG. 1. In the description of the present invention, a transmission device is assumed to be an optical transmission device, and a part related to a data communication channel (DCC) control unit and an order wire control is omitted in FIG. 1.

The main controller 101 controls the overall operation of the transmission apparatus and also monitors the operation of the transmission apparatus. The western receiver 102 receives data from a system connected to the west of the transmitter via a light path, and inputs the received data into the branch coupling board 110. The western transmitter 103 receives data to be output from the branch coupling board 110 to the system connected to the west and outputs the data through the optical path. The east transmitting unit 104 outputs the data output from the branch coupling board 110 to the system connected to the east of the transmission device through the optical path. The east receiver 105 inputs data input through the optical path from the system on the east side of the transmitter to the branch coupling board 110.

Next, look at the configuration of the branch coupling board (110). The main control connecting unit 111 relays data transmitted from the main control unit 101 to the branch combiner 113, and relays data transmitted from the branch combiner 113 to the main control unit 101. do. In addition, the main control connection unit 111 outputs to the auxiliary control unit 112 when data on the switching of the service, such as switching, is received from the main control unit 101. The auxiliary control unit 112 is provided with a backup memory for storing information according to the performance of the service therein, and in accordance with the present invention from the main control connection unit 111 to the main control unit 101 is inoperable due to malfunction When receiving a signal, the minimum control to maintain the service is performed. The branch combiner 113 combines data input from a plurality of lower connection parts connected to the lower part and outputs the data to the east transmitter 104 or the west transmitter 103, and through the west receiver 102 or the east receiver. Branching the data received through the 105 and outputs to the corresponding lower connection. In addition, the branch coupling unit 113 is controlled by the main control unit 101 when the main control unit 101 operates normally, and when the main control unit 101 does not operate, Under control. The plurality of sub-connections 107a, ..., 107n form a group and are connected to a small transmission apparatus or a subscriber board in a dense residential area. The lines of the plurality of lower connection parts may be made of light rays or may be connected through coaxial cables.

2 is a flow chart performed at the main control connection 111 in accordance with a preferred embodiment of the present invention. Hereinafter, a process of operating the auxiliary control unit according to the present invention will be described in detail with reference to FIGS. 1 and 2.

The main control connector 111 performs the main controller connection mode in step 200. Here, the main control unit connection mode means a state controlled by the main control unit 101, that is, control data is received from the main control unit 101. The main control connector 111 performs step 200 and proceeds to step 202 to check whether a signal for requesting storage of update data according to a change of a service is received. The main control connector 111 proceeds to step 220 when a signal for requesting storage of update data according to the service change is received as a result of the inspection. The main control connecting unit 111 outputs the update data to the auxiliary control unit 112 in step 220. Then, the auxiliary control unit 112 receives the received update data and stores it in the backup memory provided therein.

In contrast, when the main control connecting unit 111 proceeds to step 204, the main control connecting unit 111 checks whether an abnormality has occurred in the main control unit 101. This test means to check whether an abnormal signal or no signal is received from the main control unit 101. When the main controller 101 has an abnormality, the main control connector 111 proceeds to step 206 to check whether the abnormality is maintained for a predetermined time. As described above, when the abnormality of the main control unit 101 occurs, as described above, when the board is dismounted or an abnormality occurs during the operation, the normal operation cannot be performed. If the abnormality is maintained for more than a predetermined time as a result of the inspection in step 206, the main control connecting unit 111 outputs an operation signal to the auxiliary control unit 112. When the auxiliary control unit 112 receives an operation signal, the auxiliary control unit 112 reads backup data stored in the internal memory and performs control for maintaining a service.

In addition, the main control connecting unit 111 proceeds to step 210 to check whether the main control unit 101 is restored. That is, the main control connecting unit 111 refers to checking whether the abnormal signal received from the main control unit 101 is released or a normal signal is received. As described above, when the abnormal signal is released, the main control connector 111 proceeds to step 212 and outputs an operation stop signal to the auxiliary control unit 112. Then, the auxiliary control unit 112 stops the operation for service maintenance and proceeds to the standby mode. And the transmission device is operated by the control of the main control unit 101. In the present embodiment, only the branching board 110 is provided with an auxiliary control unit for maintaining such a service, but not only the branching board but also other boards requiring the auxiliary control unit to maintain the service as described above. It may be configured to have an auxiliary control for. In addition, the auxiliary control unit 112 may be configured as a separate processor. Alternatively, the auxiliary control unit 112 may be configured to perform such control in a processor mounted on a board that performs the control of the branch coupling board.

As described above, even when the transmission apparatus does not operate, the auxiliary control unit performs minimum control for service maintenance, so that if the main control unit of the transmission apparatus does not operate or operates abnormally, the service is not disconnected and continues. There is a sustainable advantage.

1 is a block diagram of a transmission apparatus according to an embodiment of the present invention;

2 is a flow chart performed at the main control connection in accordance with a preferred embodiment of the present invention.

Claims (3)

In the device for maintaining the service in the transmission device, A main controller for controlling the overall operation of the transmission device; A branch combiner for combining the data received from the lower device of the transmission device with the transmitted data and transmitting the data to another switching system or for branching the data received from the other switching system to the lower device; An auxiliary control unit having a backup memory for performing a control for maintaining a service and storing data according to a service change received from the main control unit when the main control unit is detached, fails to operate or operates abnormally; And a main control connection unit for interfacing data transmitted / received between the main control unit and the branch combiner and checking whether an error occurs in the main control unit, and outputting an operation signal to the auxiliary control unit when an error occurs. Retaining device. In the method for maintaining the service in the transmission device, A first step of storing the data according to the service change in the backup memory of the auxiliary controller; A second step of checking whether an abnormality occurs in the main control unit; A third step of checking whether the main controller is maintained for a predetermined time when an abnormality occurs in the main controller; And if the abnormality of the main control unit is maintained for a predetermined time or more, outputting an operation signal to the auxiliary control unit and proceeding to a service maintenance mode by the auxiliary control unit. The method of claim 2, Checking whether the main controller is normally operated while the service maintenance mode is performed by the auxiliary controller; And stopping the control of the auxiliary control unit when the main control unit is normally operated as a result of the inspection.