KR100353647B1 - Method for confirming local point code in advanced intelligent network system - Google Patents

Abstract

The present invention relates to a method for recognizing a local identification number in a next-generation intelligent network system. In particular, when the local identification number is changed by an operator or when the local identification number is changed by an operator, the present invention receives the national identification number registered in the exchange system to perform an intelligent network service. It relates to a national identification number recognition method.

In order to recognize the local signal point in the next generation intelligent network system, the local signal point information request signal is transmitted to the S7SMG of the exchange when the intelligent network system is initialized, and the local signal point information corresponding to the local signal point information request signal is transmitted from the S7SMG of the exchange. The local signal point is checked by transmitting to the intelligent network system, and when the operator changes the local signal point of the exchange, the local signal point information is transmitted from the S7SMG of the exchange to the next-generation intelligent network system, and the local signal point information is transferred from the S7SMG of the exchange. Check the local signal point in the next-generation intelligent network system.

Description

Signal point recognition method of own station in next generation intelligent network system {METHOD FOR CONFIRMING LOCAL POINT CODE IN ADVANCED INTELLIGENT NETWORK SYSTEM}

The present invention relates to a method for recognizing a local identification number in a next-generation intelligent network system. In particular, when the local identification number is changed by an operator or when the local identification number is changed by an operator, the present invention receives an identification number registered in an exchange system and performs an intelligent network service. It relates to a national identification number recognition method.

Typically, the intelligent network local SSP (SERVICE SWITCHING POINT) and the powerhouse SCP (SERVICE CONTROL POINT) are designed to transmit mutual messages using a common line signaling relay line called SS7 (Signalling System 7) for intelligent network service. It is to be transmitted using this common line signaling relay line and is defined to be made in accordance with SS7 Recommendation standard.

In order to perform intelligent network service connected to the exchange, local signaling point must be recognized by AIP (Advanced Intelligent Process). The AIP refers to a processor implementing the next generation intelligent network function. Since the local signaling point becomes the destination when the SCP needs to transmit a new message based on the response or the intelligent network service flow, the local signaling point must be included in the N_UDTreq message. The N_UDTreq message refers to a message requesting data from the SCAP to the S7 SMG. However, the method of including the local signaling point in the message can be handled by the Signaling Connection Control Control Protocol (SCCP) layer of SS7, but the SDX-200 local SSP currently handles the routing function in the Transaction Capabilites Application Protocol (TCAP). Therefore, in the N_UnitData message as shown in Table 1 in the intelligent network or TCAP, the local signaling point is included in the message. The TCAP is a protocol for message transmission between the Advanced Intelligent Network (AIN) and SS7 according to the recommendations recommended by the ITU-T. The AIN refers to the next generation intelligent network proposed by ITU-T. The N_UnitData message refers to a message used when transferring data from the S7 SMG to the TCAP.

A national signal point TCAP message INAP message

However, in the existing intelligent network, as shown in FIG. 1, after the initial AIP (Advanced Intelligent Processor) 101 starts its operation, its own signal point, that is, the identification signal of the switching station used in SS7, is initialized in the data initialization process. (100) The reference file is read and recognized from the AIP disk 102 which itself has. The AIP 101 then forwards the recognized local signaling point to the TCAP 103. At this time, the TCAP 103 sends a unit data message (N_UnitData Message) as shown in Table 1 to the SPHC 202. The SPHC 202 then receives this data message and sends it to the SCP 300 over the SS7 link.

However, in the related art, the local signal point is read from the AIP disk 102 of the intelligent network system 100, and thus the new signal point must be updated to the AIP disk 102 when the intelligent network is always initialized at a place having a new signal point. There was an inconvenience.

Accordingly, an object of the present invention is to provide a local signal point recognition method for recognizing a local signal point by receiving a changed local signal point from a local exchange in a local exchange and updating the local signal point of an intelligent network system.

1 is a process block diagram of a signal processing apparatus of a conventional intelligent network system and an exchange system;

2 is a process block diagram of a signal processing device of an intelligent network system and an exchange system according to an embodiment of the present invention;

3 is a control flowchart for updating a new local signal point when initializing an intelligent network system according to an embodiment of the present invention.

4 is a control flowchart for updating a new own signal point when the own signal point is changed by an operator according to an embodiment of the present invention;

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, detailed descriptions of related known functions or configurations will be omitted if it is determined that the detailed description of the present invention may unnecessarily obscure the subject matter of the present invention.

FIG. 2 is a process block diagram of a signal processing apparatus of an intelligent network system and a switching system according to an embodiment of the present invention. Referring to FIG. 2, the AIP 101 is a SN SMG 201 through a TCAP 103 at the start. Receives local station signal point information. That is, when the first start internal signal called AIP 101 RK NSTATEREG is sent to the SN SMG 210, the local signal point information is inserted into the internal signal called OSPINFO_FORSSF and sent to the TCAP 103. After the local signal point is recognized, the service message is sent to the player SCP through the S7 MH 202 as in FIG. 1.

3 is a control flowchart for updating a new local signal point when initializing an intelligent network system according to an embodiment of the present invention;

4 is a control flowchart for updating a new local signal point when the local signal point is changed by an operator according to an exemplary embodiment of the present invention.

2 to 4, the operation of the preferred embodiment of the present invention will be described in detail.

When the intelligent network system 100 is initialized, in step 301, the AIP 101 sends a signal point information request signal NStateReq to the TCAP 103. The NStateReq refers to a message that the AIP 101 sends to SS7 to inform the start of the processor at the first start. Then, in step 302, the TCAP 103 receives the S7 SMG (SIGNALLING SYSTEM 7 SERVICE CONNECTION CONTROL PROTOCOL MANAGEMENT GROUP, SIGNALLING 7 S7 and SERVICE S and MANAGEMENT GROUP MG) of the exchange system 200, and S7 SMG. Sends signal point status information request to The S7 SMG 201 is used to implement the SS7 common signaling scheme and refers to a block for transmitting and storing basic signal data with the TCAP. In operation 303, the S7 SMG 201 reads the local signal point information from the local signal point related database and transmits the local signal point information to the TCAP 103 using the signal OSPInfo_ForSSF. The OSPInfo_ForSSF is a software data variable name used for receiving local signal point information from the S7 SMG, and is defined internally in software. Then, in step 304, the TCAP 103 transmits the OSPInfo_ForSSF signal to the AIP 101, and the AIP 101 receives the OSPInfo_ForSSF signal and stores the local signal point information in the internal memory.

In addition, when the operator changes the local signal point of the switch 200 through the MMC (Man Machine Command) in step 401, the S7 SMG 201 of the switch 200 receives the local signal point from the database related to the local signal point. The information is read and transmitted to the TCAP 103 using a signal called OSPInfo_ForSSF. The MMC is a command tool for interfacing with an operator at the current exchange and is used by the operator to operate data of the exchange. Then, in step 403, the TCAP 103 transmits the OSPInfo_ForSSF signal to the AIP 101, and the AIP 101 receives the OSPInfo_ForSSF signal and stores the local signal point information in the internal memory.

As described above, the present invention eliminates the hassle of restarting the config file of the intelligent network because the intelligent network system receives and updates the config file of the disk without changing or changing the config file of the disk. In addition, there is an advantage that can temporarily prevent service interruption of the intelligent network system due to the change of the local signal point.

Claims (2)

In the method of local signal point recognition in next generation intelligent network system, Transmitting the local signal point information request signal to the S7SMG of the exchange upon initialization in the intelligent network system; And transmitting the local signal point information corresponding to the local signal point information request signal from the S7SMG of the exchange to the intelligent network system to identify and store the local signal point. In the method of local signal point recognition in next generation intelligent network system, When the operator changes the local signaling point of the exchange, transmitting the local signaling point information from the S7SMG of the exchange to the next generation intelligent network system; Receiving the local signal point information from the S7SMG of the exchange to identify the local signal point in the next-generation intelligent network system, the local signal point recognition method in the next generation intelligent network system, characterized in that the process.