KR100330215B1 - Method for seeking path in transmission netwokr - Google Patents

Abstract

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

It provides a method for searching a path in a transport network.

I. The technical problem to be solved by the invention

It provides a faster and easier way to set up routes in a transport network.

All. Summary of Solution of the Invention

The present invention is a method for searching a path of a signal in a transmission system composed of nodes of a transmission network. When a path search signal is generated at a source, the board is connected to a destination for each board of a predetermined node according to the generated path search signal. Searching for a path of each node; if a search result path is formed at the node; transmitting a signal for setting a path to a next node through the formable path; and forming a search result path at the node. If it is impossible, it is characterized in that it comprises a step of transmitting a path search impossible signal to the source from which the path search signal is transmitted.

la. Important uses of the invention

It is used for routing in case of forming network like transmission network.

Description

HOW TO SEARCH IN A TRANSPORT NETWORK {METHOD FOR SEEKING PATH IN TRANSMISSION NETWOKR}

The present invention relates to a method for searching a path in a transmission system, and more particularly, to a method for smoothly searching a path by shortening a path search time.

Typically, a transmission system consists of a basic linear structure, an annular structure, or a tree structure and a complex structure. In detail, the linear structure refers to a structure in which each node is connected in a straight line. Here each node becomes one transmission system. An annular structure is a structure in which transmission systems are connected to each node by forming a circle with each other, and a tree structure is a structure in which a branch is connected to more and more nodes starting from a point at the top and descending to a lower part. . Finally, the complex structure refers to a structure in which the above-described annular structure and the tree structure are formed in combination.

Meanwhile, one transmission system is composed of at least one shelf. Each board is formed in such shelves, and each board is connected to another node or composed of sub-nodes. In order to find a path in the transmission system configured as described above, when a path is searched by one node, the connection state is sequentially checked to each board. In other words, it is sequentially checked whether at least one of the boards provided in one node can be connected. That is, one board performs a search from one node to the next board, and if a connection is possible among the boards on which the search is performed, the search is performed to the next node. If this is not possible, the previous node's system is notified again. The system of the previous node then checks whether the connection is possible by performing the above process again through the next board. That is, it is assumed that a path is searched from the first node to the third node when the first node is connected to the second node from the first board.

In the case where connection is possible from the first board of the first node of the second board to the third node, the second node requires a search for a route to the next node. At this time, the third node searches for a path to the fourth node, and if it is impossible to connect all the boards, it informs the second node again. The second node then generates a signal to retrieve the path through the second board to the third node, so if no connection from the third node to the fourth node is available, no matter what board of the second node is used. This is impossible. However, in the transmission system, since each node is sequentially searched and composed of a map, such a process is performed.

Therefore, if the search is performed by the above process, the path search takes more than 1 hour in a serious case. That is, there was a problem that the search time of the route is very long.

Accordingly, an object of the present invention is to provide a method for quickly and simply performing a path search in a transmission system.

Another object of the present invention is to provide a method for reducing the load of a system while shortening a path retrieval time in a transmission system.

The present invention for achieving the above object is a method for searching for a path of a signal in a transmission system consisting of each node constituting a transmission network, and if a path search signal is generated at the source, Searching for a path of each node connected to a destination for each board, transmitting a signal for setting a path to a next node through the formable path when the search result path is formed in the node, and the node If it is impossible to form a search result in the characterized in that the process of transmitting the path search impossible signal to the source from which the signal of the path search is transmitted.

1 is a network configuration diagram when the transmission system is linear;

2 is a control flowchart for searching for a path in a transmission system according to an exemplary embodiment of the present invention.

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

1 is a network diagram when the transmission system is linear. Hereinafter, a configuration of a linear network will be described with reference to FIG. 1, and a process of searching for a path of a system will be described with reference to FIG. 1 in a control flowchart to be described below.

In FIG. 1, a destination and a source are indicated. That is, it is indicated for explaining the method of finding a route from a starting point to a destination for the purpose of describing the present invention. In addition, each transmission system forms a node between a destination and a source. In this embodiment, four nodes are shown. That is, node A is connected to node B, node B is connected to node C, and node C is connected to node D. In this way, a connection is made from the origin to the destination. In addition, as described above, each node is composed of shelves, and each shelf is composed of respective boards.

2 is a control flowchart for searching for a path in a transmission system according to a preferred embodiment of the present invention. Hereinafter, a process of searching for a route according to the present invention will be described in detail with reference to FIGS. 1 and 2.

When the initial path search is started, setup for path search occurs in step 310, and the first node, Node A, is set to tNode. And when the connection from the first node to the next node, the value of the node is increased. When the first node receives a node search signal (check_signal), the process proceeds to step 330 to search for a port corresponding to the next node by referring to xc or payload. This search is because each node is not only connected to one side but also connected to the other side. Therefore, the search for each board in the direction connected to the other side toward the ar site is made.

At the time of the search, if a connection is possible on a specific board, the next node is skipped without performing a search for the next node. In this case, if the node proceeds to the next node, that is, the node A to the node B, the process proceeds to step 340, the port value for the next node is assigned, and then the path search for the next node is performed. The process then proceeds to step 350 again to check whether the call is completed at the next node. In other words, the node is continuously inspected to the destination to check whether Nok feedback occurs at a specific node. As a result of the check, when a feedback of Nok occurs in a specific node, a message indicating that delivery in the above direction is impossible is generated in step 370 and transmitted to the starting side. On the other hand, if the connection is smoothly continued to the destination in order to inform the starting point that the path is not abnormal.

As described above, when searching for paths of nodes constituting the transmission network, if an error occurs in one node, the path search is quickened by notifying that the path does not exist.

Claims (1)

In the method for searching the signal path in the transmission system consisting of the nodes forming the transmission network, Searching for a path of each node connected to a destination for each board of a predetermined node according to the generated path search signal when a path search signal is generated at a departure point; Transmitting a signal for setting a path to a next node through the formable path when the search result path is formed at the node; And if the search result path cannot be formed at the node, transmitting a path search impossible signal to a source from which the path search signal is transmitted.