KR100285958B1 - Apparatus for setting path in both direction transmitting system and method therefor - Google Patents

Abstract

PURPOSE: An apparatus and a method for establishing a bidirectional path of a transmission device are provided to carry out a bidirectional transmission by establishing the shortest transmission path of the transmission device as a main transmission path. CONSTITUTION: A path determination unit(111) controls the searching of the shortest path of the transmission device and controls the establishment of the searched shortest path as a main path. A path establishment unit(112) controls the transmission of path search data for searching the shortest path by the control of the path determination unit(111). A maintenance and repair unit(113) provides an overall operating program of the transmission device and receives switching result data from the path determination unit(111) in the case of a failure of the transmission device. First and second transmission/reception units(114,115) are responsible for relaying and transmitting/receiving data transmitted/received to/from an adjacent transmission device.

Description

Bidirectional routing apparatus and method of a transmission device {APPARATUS FOR SETTING PATH IN BOTH DIRECTION TRANSMITTING SYSTEM AND METHOD THEREFOR}

The present invention relates to an apparatus and a method for routing a transmission apparatus, and more particularly, to an apparatus and method for bidirectional routing of a transmission apparatus.

In general, a routing device having a ring structure has a main path and an auxiliary path, data is transmitted and received through the main path, and switching is performed through the auxiliary path only when a switching element of the main path occurs. . In addition, when the transfer element of the main path is resolved, the path is converted into the main path again. This will be described with reference to FIG. 1.

1 is a connection diagram of a transmission apparatus having a ring structure. Paths 11, 12, 13,... , 18 depicts the main path, with the dotted lines 21, 22, 23,... 28 shows the secondary route. Also, 1, 2, 3,... Of each node. And 8 are each transmission device. When the transmission device 1 transmits data to the transmission device 3, the transmission device transmits data through the transmission paths 11 and 12, which are main paths. In addition, when the transmission device 1 is to transmit data to the transmission device 7, if the main transmission path is in a normal state, the data transmission paths transmit data to the transmission device 7 through 11, 12, 13, 14, 15, and 16. Will be sent. Therefore, the transmission efficiency during data transmission of the transmission device is reduced. In addition, when an abnormality occurs in the main path, the transmission device transmits data through the auxiliary paths 28 and 27, but when the switching element of the main path is resolved, the transfer device is switched to the main path again. In addition, when the transfer element is generated, when the transfer element occurs, the transfer element generation data is transmitted to the maintenance unit of the transfer device, and the switching execution control is performed by the software of the maintenance unit. There was a downside. In addition, there is a problem in that all transmission paths should be corrected when an error occurs in one node.

Accordingly, an object of the present invention is to provide an apparatus and a method for performing bidirectional transmission by setting a main transmission path as the shortest transmission path of a transmission device.

An apparatus of the present invention for achieving the above object is a transmission device constituting a node of a ring network capable of transmitting data in a duplex link in both directions, it is connected to the transmission device constituting an adjacent node to relay data or transmit data and The first and second transmitting / receiving units which perform the reception, and control to perform the control for the inspection of the shortest path of the ring-shaped network during the initial operation, and determine the checked shortest path as the main path to perform the transmission and reception of data. The path determining unit generates path search data upon request of the shortest path check from the path determining unit, and transmits the path search data to the first and second transmitting / receiving units. A path setting unit configured to transmit / receive a signal and receiving path confirmation data from the first and second transmitter / receivers, respectively. A comparator for comparing data and outputting a comparison result, a slave signal unit for transmitting and receiving data to a subordinate switching system and a telephone subscriber, and storing control data of each unit to provide data to the respective units during initial operation. It is characterized in that it consists of a maintenance unit that performs an interface with the operator, and receives failure occurrence data and transfer information.

In order to achieve the above object, a method according to the present invention is a routing method in a transmission device forming each node of a ring transmission network capable of transmitting and receiving data through a duplex redundant transmission path. Transmitting the route search data to the transmitting devices forming the node, comparing the route confirmation data received through the bidirectional transmission path, and setting a main path through the short path; It is made by the process of transmitting.

In addition, the main path is set for each node, and when the failure occurs during transmission and reception of the data, the main path is switched to the auxiliary path.

When the failure occurs simultaneously in both directions, a process of comparing the grades of the generated failures and setting a path in a direction in which the failure grades generated as a result of the comparison are low.

1 is a connection diagram of a transmission device having a ring structure.

2 is a block diagram of a transmission device according to the present invention;

3 is a flowchart illustrating an operation performed in a transmission apparatus when establishing a bidirectional path according to an embodiment of the present invention.

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

1 is a connection configuration diagram of a ring-type transmission device having a bidirectional transmission path. Also, for the sake of understanding, it is assumed that the distance between nodes, which is the distance between transmission devices, is the same.

2 is a block diagram of a transmission apparatus according to the present invention. Hereinafter, the configuration and operation of a transmission apparatus according to the present invention will be described with reference to FIG. 2.

The path determining unit 111 controls the search of the shortest path of the transmission apparatus and performs control of setting the searched shortest path as the main path. The path setting unit 112 controls the transmission of the path search data for the shortest path search under the control of the path determining unit 111. In addition, the path setting unit 112 switches the data transmitted / received from the slave signal unit 117 to the set main path when the path determining unit 111 sets the main path. The maintenance unit 113 provides an overall operation program of the transmission device and the like, and receives the transfer result data received from the path determining unit 111 when a failure of the transmission device occurs according to the present invention. The first transmitter / receiver 114 and the second transmitter / receiver 115 are responsible for relaying and transmitting / receiving data transmitted / received with an adjacent transmitter. Also, the first transmitter / receiver 114 and the second transmitter / receiver 115 check whether a failure occurs in each transmission path according to the present invention, and when a failure occurs, outputs a grade of the failure to the comparator 116. The comparator 116 compares the fault grade data received from the first and second transmitter / receivers and outputs the fault grade comparison result data to the path determiner 111. The slave signal unit 117 is connected to a local exchange or private exchange, a plurality of telephone subscribers, and the like and converts data to be transmitted into an optical signal and converts the received optical signal into an electric signal.

3 is a flowchart illustrating an operation performed in a transmission apparatus when establishing a bidirectional path according to an embodiment of the present invention. Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 3.

In step 200, the maintenance unit 113 transmits control data including a program necessary for transmission to each unit of the transmission apparatus. The drawing unit loads the control data received from the maintenance unit 113. The path determining unit 111 outputs a path search control signal to the path setting unit 112 in step 202. The path setting unit 112 transmits data for path search to the first transmitter / receiver 114 and the second transmitter / receiver 115 when the path search control signal is received. The first transmitter / receiver 114 and the second transmitter / receiver 115 transmit the received path setting data to the transmitters connected to the first transmitter / receiver 114 and the second transmitter / receiver 115. This will be described with reference to FIG. 1 as an example of a transmission apparatus located in the first node. The transmitter 1 first transmits path search data to the transmitter 2 through the first transceiver 114 and the second transmitter / receiver 115 to set the shortest path of the transmitter 2. At this time, the transmission path of the second transmitter / receiver 115 is 28, 27, 26,... The path search data is transmitted through 22, and the first transmitter / receiver 114 transmits the path search data through 11. In addition, when the transmission device 2 receives the path search data from the transmission device 1, the transmission device 2 transmits the path confirmation data to the transmission device 1 through the path where the path search data is transmitted.

The transmitter 1 transmits the received path confirmation data to the comparator 116 when the path confirmation data is received through the first transmitter / receiver 114 and the second transmitter / receiver 115. The comparison unit 116 compares the transmission time of the received path confirmation data and outputs the same to the path determination unit 111. In operation 204, the path determiner 111 sets a main path according to the path search comparison data received from the comparator 116. In addition, the path determining unit 111 of the transmission device 1 proceeds to step 206 to check whether the main paths of all the ring-shaped transmission devices are set. If all the main paths are set as a result of the inspection, the path determining unit 111 proceeds to step 208. If all the main paths are not set, the path determining unit 111 proceeds to step 202 to set the main path of the transmitter located in the next node. Through the above-described process it is possible to sequentially set the main path of each transmission device. In addition, the setting of the main path may include setting the main path by inputting the preset main path data to the path determining unit 111 when the maintenance unit 113 loads the control data to each unit in step 200. .

When all main paths are set in step 206 and the process proceeds to step 208, the path setting unit 112, the first transmitting / receiving unit 114, and the second transmitting / receiving unit 115 transmit / receive data in both directions according to the set main path. Perform the reception. In addition, the first transmitter / receiver 114 and the second transmitter / receiver 115 check whether the transmission / reception failure occurs during data transmission / reception in step 210. Output Here, the transmission / reception failure data is largely classified into an alarm level failure and a performance level failure. The alarm level failure may include a signal loss, an alarm signal, a signal separator loss, and the like, and the performance level failure may include an excessive error and a performance degradation. Each fault is divided into classes, and the alarm grade fault is located at a higher level than the performance grade fault. In addition, the occurrence of the transmission / reception failure may occur in one transmitter / receiver or both in the first and second transceivers. Therefore, when the transmission / reception failure data is received, the comparison unit 116 compares the received failure level data and transmits the failure level comparison result data to the path determining unit 111.

In step 214, the path determiner 111 checks whether the path is required to be changed according to the failure level comparison result data received from the comparator 116. Herein, the necessity check of the transfer is described in detail. First, when the main path is set to the first transmitter / receiver 114, the disability data received from the first transmitter / receiver 114 is a loss of the alarm class disabled signal identifier, and the second If the data received from the transmitter / receiver 115 is a performance level impaired performance changeover is required. However, the fault grade of the fault grade data received from the first transmitter / receiver 114 and the fault grade data received from the second transmitter / receiver 115 is the same or the fault grade of the fault grade data received from the second transmitter / receiver 115. If this is high, there is no need to perform a transfer.

When switching is necessary, the path determining unit 111 transmits transfer control data to the path setting unit 112, and proceeds to step 216. If switching is not necessary, the path determining unit 111 proceeds to step 208. In step 216, the path setting unit 112 performs the transfer of the main path when the transfer control data is received from the path determining unit 111, and transmits the transfer ending data to the path determining unit 111 when the transfer is completed. When the path determining unit 111 receives the transfer termination data, the path determining unit 111 proceeds to step 218 and transmits the transfer result data to the maintenance unit 113.

As described above, by setting the main transmission path of the transmission device as the shortest path and transmitting in both directions, the transmission efficiency can be increased, and when switching elements occur, the transfer time of the circuit can be solved first, thereby reducing the time required for switching. There is this. In addition, there is an advantage that the efficiency of the network can be increased by switching only a part of the transmission paths without switching the entire ring-shaped system due to an error of one node.

Claims (6)

In the transmission device constituting a node of a ring network capable of transmitting data in a redundant link in both directions, First and second transmitting / receiving units connected to a transmitting device constituting an adjacent node to perform data relay or data transmission and reception; A path determination unit configured to perform control for inspecting the shortest path of the ring network during initial operation and to determine transmission and reception of data by determining the checked shortest path as a main path; Generate path search data when the shortest path check request is made from the path determining unit to transmit the path search data to the first and second transmitting / receiving units, and transmit / receive data according to the set main path when determining the main path. With route setting part to say, A comparator for outputting a comparison result by comparing the two data when receiving path confirmation data from the first and second transmitters and receivers, respectively; A subordinate signaling unit for transmitting and receiving data to subordinate switching systems and telephone subscribers; Bidirectional routing device for transmitting equipment, characterized in that the control unit stores the control data of each unit, provides data to each unit during initial operation, performs an interface with an operator, and receives a failure occurrence data and transfer information. . The method of claim 1, The comparison unit compares the generated failure level when receiving a failure occurrence signal and outputs a comparison result to the path determination unit, The path determining unit determines whether to perform the transfer according to the result of the comparison of the failure level, outputs to the path setting unit to perform the transfer, and outputs the transfer result to the maintenance unit. Device. In the routing method in the transmission device forming each node of the ring-shaped transmission network capable of transmitting and receiving data through the duplex redundant transmission path, Transmitting path search data to transmission devices forming each node of the ring-type transmission network during initial driving; Setting a main path through a short path by comparing path identification data received through the bidirectional transmission paths; The bidirectional routing method of the transmission device, characterized in that the process of transmitting data through the set main path. The method of claim 3, The bidirectional routing method of the transmitter, characterized in that the main path is set for each node The method according to claim 3 or 4, And converting the main path into an auxiliary path when a failure occurs during the transmission / reception of the data. The method of claim 5, Comparing the grades of the generated failures when the failures occur simultaneously in both directions; And setting a path in a direction in which a failure level generated as a result of the comparison is low.

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