KR0161761B1 - Data message transmission method using transaction identifier in full electronic switching system - Google Patents

Abstract

The present invention relates to a data indication message transmission method for transmitting a data indication message in an electronic switchgear, and to provide a message transmission method for transmitting a data indication message using a question and answer processing identifier in a message processing function application unit message. First steps 51 to 53 for checking the separated subsystem number after receiving the unit data message and separating the subsystem number; A second step 57 of transmitting a data indication message to an associated signaling connection user unit if the subsystem number is not a mobile communication and intelligent network service application element; And if the subsystem number is a mobile communication and intelligent network service application element, the question and answer processing identifier is separated from the message and the question and answer processing function application part, which is the relevant main processor identifier, is separated from the separated question and answer processing identifier. Including the third step (54 to 56) of transmitting the data indication message to the processor identifier has the effect of reducing the processing time of the message processing function application unit message and maximize the available resources of the exchange.

Description

A method of transmitting a data indication message using a question-and-answer identifier at an electronic switching center.

1 is a block diagram of a common signal system in an all-electronic exchange to which the present invention is applied.

2 is a mapping diagram of a question-and-answer function application unit and a signal connection control unit in an electronic switching system.

3 is a flow chart of a question-and-answer function message in an intelligent network and a mobile network.

4 is an explanatory diagram of the assignment of the question and answer processing identifier according to the present invention.

5 is a flow chart according to the present invention.

* Explanation of symbols for the main parts of the drawings

11: question and answer processing function application unit processor 12: processing the signal connection control unit

The present invention provides data using the question processing identifier present in the message processing function application part message for effective control when a plurality of Q & A application units receiving the connectionless service of the signal connection control unit are distributed and processed in the electronic switchboard. A method of transmitting a data indication message for transmitting an indication message.

In general, when the Q & A application unit receiving the connectionless service of the signaling connection controller exists in only one processor, the mapping of the message received by the signaling connection controller is not a problem. For ease of distribution it is problematic to deliver the message received at the signal connection control to the associated processor when it is distributed.

As a solution to this problem, there is a method of broadcasting to a plurality of processors or transmitting to a main processor and then distributing them to related processors.

However, the above two methods have a problem in that processing time is delayed and resources are wasted.

Accordingly, an object of the present invention is to provide a message transmission method for transmitting a data indication message using a question and answer processing identifier in a message processing function application unit message.

In order to achieve the above object, the present invention provides a data indication message transmission method in which a plurality of question-and-answer processing functions are applied to an all-electronic exchange in which an application unit processor and a plurality of signal connection control unit processors are connected to each other. Checking the separated subsystem numbers after separating the subsystem numbers; A second step of transmitting a data indication message to an associated signal connection user unit if the subsystem number is not a mobile communication and intelligent network service application element as a result of the checking in the first step; And if the subsystem number is a mobile communication and intelligent network service application element, if the subsystem number is a mobile communication and intelligent network service application element, separating the question and answer processing identifier from the message, and separating the question and answer processing function application unit processor identifier which is the associated main processor identifier from the separated question and answer processing identifier. And a third step of transmitting the data indication message to the separated question-and-answer function application processor identifier.

Hereinafter, with reference to the accompanying drawings will be described an embodiment according to the present invention;

1 is a block diagram of a common signal system in an all-electronic exchange to which the present invention is applied.

The common line signaling method in the electronic switchboard is largely composed of a message transfer part (MTP) 7 and a user part 100, and the user part 100 is a telephone user part according to a use purpose. (TUP: Telephone User Part) (5), Integrated Services Network User Part (ISUP: ISDN User Part) (4), Signaling Connection Control Part (SCCP) (6), Intermediate Service Unit (3), Q & A It is divided into various forms, such as the processing function part 2 and the application specific element function part 1, and the message delivery part 7 is in charge of a message transmission function in common to all the user parts in an electronic switchboard.

The dual signal connection control unit 6 is an essential element in an integrated information communication network, an intelligent network, and a mobile communication network, and provides subscribers with connectionless and connected network services for the transmission of signal information related to lines and non-lines, and provides an answer processing function application unit ( TCAP: Transaction Capabillities Application Part (2) is responsible for the handling of questions between exchanges and special centers.

The connection between the question-and-answer function application unit 2 and the signal connection control unit 6 is directly connected in the case of the connectionless service (8), and in the case of the connected service, through the intermediate service unit 3 (9). In the intelligent network and mobile network, only the connectionless service function of the question-and-answer function application unit 2 is used for service control and subscriber information processing.

2 is a configuration diagram of mapping between the question-and-answer function application unit and the signal connection control unit in the electronic switchboard.

The signal connection control unit processor 12 is composed of a plurality, and can be directly connected to all the question and answer processing function application unit processor 11. Similarly, the question-and-answer function application unit processor 11 may be directly connected to all the signal connection control unit processors 12. The question-and-answer function application unit 2 is mounted on some of the main processors in each distributed module of the electronic switching unit.

3 is a flow chart of a question-and-answer function message in an intelligent network and a mobile network.

The question-and-answer function application unit 2 of the service control node or the mobile communication exchange initiates the question-answer processing by sending a start (BEGIN) message 21 to the service control node or the subscriber information processing node in association with the specific call. In this case, the start message 21 includes an originating transaction processing identifier (OTID). This identifier is then carried with the same value in the Destination Transaction IDentifier (DTID) parameter in the continuation messages 22 and 24 received from the other party. This is to distinguish between the plurality of question-and-answer processes set in the question-and-answer function application unit 2. When the question-and-answer function application unit 2 completes one question-and-answer process, the end message 25 is sent to end.

Accordingly, the specific question and answer processing procedure is started in a specific processor among the plurality of question processing function application unit processors 11, and a message received in connection with the question and answer processor should be sent to the specific processor, so that the signal connection control unit 6 has received it. Needs a way to find a particular handler.

4 is an explanatory diagram for the assignment of the question and answer processing identifier according to the present invention.

The main processor identifier 41 has a value identifying each of the main processors mounted in the electronic switchboard distribution module, and each main processor has a unique value. The question-and-answer function application processor 11 assigns the main processor identifier 41 to a specific 6 bits of the question-and-answer identifier 42 when starting a new question-and-answer process. At this time, the specific bit of the question and answer processing identifier 42 must be allocated 6 bits consecutively from the start point or the most significant bit promised with the signal connection control unit 6 to obtain the processing efficiency. The remaining bits may be used to identify between each question processing connection in the question processing function application processor 11.

This assigned question-and-answer identifier 42 is included in the start message 21 as an originating question-and-answer identifier and continues to be included in subsequent question-and-answer function application part messages 22 and 24 from the counterpart node. All the question-and-answer function messages between the nodes are communicated as unit data (UDT), which is a connectionless message between the signal connection control units 6.

5 is a flowchart according to the present invention.

First, when a unit data message is received at the service switching node and the mobile communication exchange (51), the subsystem number is separated from the message (52), and then the separated subsystem number is checked (53).

If the subsystem number is not a mobile communication and intelligent network service application element, it sends a data indication message to the associated signaling connection user (57).

However, if the subsystem number is a mobile communication and intelligent network service application element, it separates the question-and-answer identifier from the message (54). Subsequently, the question processing function application unit processor identifier, which is the associated main processor identifier, is separated (55) from the separated question processing identifier, and the data indication message is transmitted (56) to the separated question processing function application unit processor identifier. As a result, the process of transmitting the message processing function application unit message received by the signal connection control unit 6 to the associated processor is completed.

As described above, the present invention does not require a table for identifying a question-and-answer application part processor in the signal connection controller processor by appropriately using the question-and-answer function identifier in the message-processing function application part message. Since it can be sent directly to the subprocessor without an intermediate connection, it can reduce the processing time of the message processing function application part message and maximize the available resources of the exchange.

Claims (3)

In the method of transmitting a data indication message to which a plurality of question-and-answer function application part processor 11 and a plurality of signal connection control part processor 12 are respectively connected to each other, a unit data message is received to separate a subsystem number. First step (51 to 53) after checking the separated subsystem number; A second step (57) of transmitting a data indication message to an associated signal connection user unit if the subsystem number is not a mobile communication and intelligent network service application element as a result of the check in the first step (51 to 53); And if the subsystem number is a mobile communication and intelligent network service application element as a result of the check in the first step 51 to 53, the question and answer processing function application unit which is a related main processor identifier from the question and answer processing identifier separated from the message by separating the question and answer processing identifier from the message. And a third step (54 to 56) of transmitting the data indication message to the separated question processing function application unit processor identifier after separating the processor identifier. The method of claim 1, wherein the question and answer processing identifier 42 of the third step 54 to 56 is assigned to the main processor identifier 41 at a specific bit by the question and answer processing function application processor 11 when starting a new question and answer processing. ) Is a method of transmitting a data indication message using a question and answer processing identifier, characterized in that is assigned. 3. The method according to claim 2, wherein the specific bit of the question-and-answer identifier (42) is allocated consecutively at the start point or the most significant bit promised by the signal connection control unit.