KR970031554A - Network end-to-end test method in intelligent network - Google Patents

Abstract

The present invention relates to a network end-to-end test method in an intelligent network service switch, a service controller, a signal repeater, etc., to provide a network end-to-end test method for identifying the source of failure distributed between each intelligent network element, test routing message Receives the data from the node indicator by analyzing the data of the node indicator and assigns the node information to the node indicator according to whether the node number in the test routing message matches its own node number and whether the test routing message can be continuously routed. First steps 31 to 41; And a second step (42 to 46) of generating a test routing message and analyzing the data of the node indicator after the routing process is received upon receiving the request for generating the test routing message. It enables the operator to operate the intelligent network quickly and efficiently, and develop, operate, and maintain the various newly required intelligent network services quickly and economically based on accumulated technology and experience. It can be applied to the next-generation intelligent network having an independent structure, and can be applied to the TMN when integrating the intelligent network and TMN (Telecommunication Management Network) later.

Description

Network end-to-end test method in intelligent network

Since this is an open matter, no full text was included.

1 is a block diagram of an intelligent network to which the present invention is applied.

2 is a structural diagram of a node indicator data format in a test routing message.

3 is a test flow diagram of network end-to-end in accordance with the present invention.

Claims (4)

An intelligent network service exchanger 12 that recognizes the intelligent network service request of the service user 11 and triggers the corresponding service to request service processing; A service controller 14 for controlling and processing an intelligent network service having service logic and data necessary for providing a service; And a signal repeater 13 for relaying a message signal for communication between the intelligent network service exchanger 12 and the service controller 14. A first step of analyzing the data of the node indicator by allocating the node information to the node indicator according to whether the node number in the test routing message and the node number match and whether the test routing message can be continuously routed. 31 to 41); And a second step (42 to 46) of analyzing the data of the node indicator after generating and routing the test routing message upon receiving a request for generation of the test routing message. 2. The method of claim 1, wherein the first steps (31 to 41) comprise: a third step (31 to 33) of analyzing data of the node indicator in the test routing message upon receiving a test routing message from any originating node; As a result of the analysis of the third step (31 to 33), if the node number in the test routing message and its node number match, the node information in the test routing message is allocated to the node indicator in response to the originating node transmitting the test routing message. Fourth step 34 to 36; As a result of the analysis of the third steps 31 to 33, if the node number in the test routing message and its node number match each other and the test routing message can be continuously routed, the node information in the test routing message is added to the node indicator. A fifth step (34, 37 to 39) of allocating and routing the trial routing message to the next node according to the routing table; And assigning non-routing node information to the node indicator if the node number in the test routing message and its node number match each other and the test routing message cannot be continuously routed as a result of the analysis of the third steps 31 to 33. And a sixth step (34, 37, 40, 41) of responding to the originating node sending the test routing message. 2. The second step (42, 46) of claim 1, wherein the second step (42, 46), upon receiving a request for the generation of a test routing message, generates a test routing message and allocates the necessary data to the node indicator (42, 43). ; A fourth step in which the generated test routing message is routed according to the data of the allocated node indicator and the routing table in the node, and is received by the node where the test routing message has been generated again after the routed test routing message reaches the destination node. 44,45); And a fifth step (46) of analyzing the data of the node indicator in the received test routing message. 4. The originating node code (21) according to any one of claims 1 to 3, wherein the node indicator indicates an originating node number which transmitted a test routing message or a node number which originally generated a test routing message. ; A terminating node code 22 indicating the last node number to which the test routing message should be routed or the node number to which the test routing message is currently routed; Year 23, meaning a year at which a test routing message occurred at any node; A month 24, meaning a month at which a test routing message occurred at any node; Date 25, indicating the day at which a test routing message occurred at any node; A time 26 meaning a time at which a test routing message occurred at any node; A minute 27 indicating a minute at which a test routing message has occurred at any node or a test routing message has arrived at a node; Second (8), which means the seconds at which the test routing message occurred at any node or the seconds at which the test routing message arrived at the node; And an error indicator (29) indicating the cause of the error when the test routing message is routed but is no longer routed or the node to be routed is a called node number. Network end-to-end test method. ※ Note: The disclosure is based on the initial application.