KR100277236B1 - Mobile Intelligent Network Call Processing in Global Asynchronous Transfer Mode Switch - Google Patents

Abstract

The present invention determines a setup message delivered from a base station controller (RNC) to exchange ATM services, IMT-2000 mobile call processing, and intelligent network call processing. The present invention relates to a mobile intelligent network call processing method in an aircraft, wherein an IMT-2000 mobile call processing service having terminal mobility and an intelligent network call processing service having service mobility can be processed in a single IMT-2000 ATM mobile switching system. It will reduce the time required to process the intelligent network serviced by.

Description

Mobile Intelligent Network Call Processing in Global Asynchronous Transfer Mode Switch

The present invention relates to a mobile intelligent network call processing method in a global mobile communication asynchronous transmission mode switch. More specifically, the IMT-2000 ATM mobile switching system simultaneously performs IMT-2000 call processing and mobile intelligent network call processing, and performs each signal. The present invention relates to a mobile intelligent network call processing method in a global mobile communication asynchronous transmission mode switch which provides a call processing function by integrating a protocol.

Currently, ITU TG 8/1 is a basic requirement of IMT-2000 service and recommends to provide INET-2000 mobile call processing subscriber with intelligent network service.

In general, when the intelligent network call processing function is implemented in a public switched telephone network (PSTN) switching system or an integrated service digital network (ISDN) switching system, it is implemented in a toll exchange. Intelligent network call processing required from the local exchange is collected and the relay exchange system relays.

In addition, in the current mobile communication service, the intelligent network interworking function is used in conjunction with the relay switching system. In order to perform the intelligent network processing in this way, the source exchange transfers the intelligent network information to the relay exchange system, and the relay exchange processes the transaction with the SCP (Service Control Point) to obtain the destination information of the intelligent network. The intermediate exchange feeds back this incoming information to the originating exchange. The originating exchange that has received the information has the disadvantage of going through several steps of performing the call processing (routing procedure) procedure again with the acquired information. When this method is applied to the mobile switching system, after the destination information is obtained from the intelligent network relay switching system due to the nature of the call processing of the mobile switching system, the incoming call of the mobile subscriber is located through transaction processing with the Home Location Register. Another transaction process must be performed that needs to obtain information from the switching system. When the call processing procedure is normally performed in the IMT-2000 exchange, the call processing time of the mobile communication intelligent network incoming signal is delayed.

Accordingly, the present invention has been made in view of the above-described conventional situation, and the ATM exchanger can simultaneously perform ATM call processing, IMT-2000 mobile call processing, and intelligent network call processing by determining a setup message transmitted from a base station controller (RNC). An object of the present invention is to provide a mobile intelligent network call processing method in a global mobile communication asynchronous transmission mode switch.

In order to achieve the above object, a mobile intelligent network call processing method in a global mobile communication asynchronous transmission mode switch according to a preferred embodiment of the present invention, receives an ATM cell including a signal message according to an outgoing signal from a subscriber and receives the signal. Classifying the intelligent network code / wired ATM / IMT-2000 mobile call of the received signal message by number classification of the message,

And performing a corresponding call processing based on the current signal message according to the classified call type.

1 is an example of the configuration of a global mobile communication network to which the present invention is applied;

2 is a block diagram of an IMT-2000 ATM mobile switching system shown in FIG. 1;

3 is a flowchart illustrating a mobile intelligent network call processing method in a global mobile communication asynchronous transmission mode switch according to an embodiment of the present invention.

<Description of the reference numerals for the main parts of the drawings>

10: base station 15: base station controller (RNC)

20: IMT-2000 ATM Mobile Switching System

25 Service Control System (SCP) 30 Subscriber Location Store (HLR)

55: RNC interface unit 60: ATM processing unit

65: signal protocol processing unit 70: intelligent network processing determination unit

75: IMT-2000ATM common call processing unit 80: mobility processing unit

85: BCSM processing unit 90: HLR interlocking function

95: service switching function unit 100: IMT-2000ATM call processing device

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

1 is an exemplary diagram of a global mobile communication network to which the present invention is applied, and an environment for integrally performing mobile intelligent network service provision, ATM call processing service provision, IMT-2000 mobile call processing, etc. IMT-2000 ATM Mobile Switching System (20), IMT-2000ATM Mobile Switching System (20) interworking with STM-1 class relay lines and service control system using standard INAP signaling (25 (hereinafter referred to as SCP)), IMT A subscriber location store (30 (hereinafter referred to as HLR) for storing the location of the 2000 mobile communication subscriber) and a supporting international controller (15; below) for transmitting a signal message from the mobile terminal to the IMT-2000 ATM mobile switching system 20. RNC), and the base station 10 for transmitting and receiving the signaling method and data by the mobile terminal and the radio.

Here, the base station 10 converts the signaling method and data from the signal message and data transmitted from the mobile terminal into a wired packet format. The RNC 15 connected to the IMT-2000 switching system N: 1 converts a wired signal and data format into an ATM transmission method and transmits the converted signal to the IMT-2000 ATM mobile switching system 20. The IMT-2000 ATM mobile switching system 20 uses the SCP 25 and the INAP (Intelligent Network Application Part) protocol to interwork with each other to obtain a call number of an intelligent network. In addition, if the IMT-2000 ATM mobile switching system 20 is a normal IMT-2000 mobile call, an incoming mobile subscriber in a setup message delivered from a mobile terminal using a mobile application part (MAP) protocol. Obtain the location of the called subscriber by interworking with the HLR 30 with the number, and in the case of the mobile intelligent network, obtain the actual called subscriber information using the mobile subscriber's called number received from the SCP (25).

FIG. 2 is a block diagram of the IMT-2000 ATM mobile switching system 20 shown in FIG. 1, and the processing thereof is as follows.

When the IMT-2000 mobile subscriber performs an outgoing call to receive the mobile intelligent network service according to the present invention, the RNC interface unit 55 connected to the RNC 15 and the STM-1 level performs the IMT- It transfers to the ATM processing unit 60 of the 2000 ATM switching system to perform ATM processing. At this time, the received message shall use the SETUP message format of Q.2931 or Q.2761 used by wired ATM, and distinguish intelligent network / wired ATM / IMT-2000 mobile call by the number included in it. Signaling ATM Adoptation Layer, Service Specific Connection Oriented Protocol (SSCOP), Service Specific Co-Ordination Function (SSCF), Message Transfer Part (MTP) 3b, Signaling Connection Control Part (SCCP) of the signaling message transmitted from the ATM processor 60 When the message is transmitted to the intelligent network processing determining unit 70 through the signal protocol processing unit 65 performing the processing, the intelligent network processing determining unit 70 receives the called number in the SETUP message transmitted through the signal protocol processing unit 65. If a user has an intelligent network identification number (Detection Point) by performing a triggering process with the SCP (25) through the corresponding Basic Call State Model (BCSM) processing unit 85, the actual mobile call number (IMUI: After performing the process of obtaining the International Mobile User Identity, the mobile forwarding number is transferred to the IMT-2000 ATM common call processing unit 75. On the other hand, if the incoming number analysis result in the setup message has the IMT-2000 identification number (IMUI), the MMT protocol procedure of the HLR interworking function unit 90 passes through the mobility processing unit 80 through the IMT-2000 ATM common call processing unit 75. Accordingly, the actual routing subscriber's incoming routing address (TLDN) is obtained. If the called number analysis result in the SETUP message has a wired ATM subscriber number, the ATM call processing routing procedure is performed according to the normal call routing procedure performed by the IMT-2000 ATM common call processing unit 75. The exchange system connects the call to the exchange system to which the called party belongs and performs the charging procedure.

3 is a flowchart illustrating a mobile intelligent network call processing method in a global mobile communication asynchronous transmission mode switch according to an embodiment of the present invention.

When the IMT-2000 subscriber according to the present invention sends an intelligent network, the IMT-2000 ATM mobile switching system 20 receives a SETUP message from the RNC 15 to which the subscriber is connected (step 105). After the originating exchange performs the discrimination in the processing unit for determining whether it is an intelligent network (step 110), in case of an intelligent network, it generates a BCSM for triggering processing (step 115), and a signaling service function (SSF) for obtaining an actual destination address. (Step 120) to obtain the actual destination address through interworking with the SCP 25 (step 125). The next step 130 is performed with the destination address obtained from the SCP 25. If it is determined that the intelligent network process is completed or not, the network is determined to be an IMT-2000 call (step 130). In the case of an IMT-2000 call, the HLR routing procedure is performed to determine the address of the exchange system to which the called party belongs. (Step 135) A call routing address is received (step 140). On the other hand, in case of general ATM wired call processing rather than intelligent network and IMT-2000, normal call processing is performed (step 145).

According to the present invention as described above, it is possible to process the IMT-2000 mobile call processing service having a mobile terminal and the intelligent network call processing service having a service mobility in a single IMT-2000 ATM mobile switching system, accordingly IMT-2000 mobile The time required for processing the intelligent network serviced in communication can be shortened.

On the other hand, the present invention is not limited only to the above-described embodiments, but may be modified and modified without departing from the scope of the present invention.

Claims (4)

Receiving an ATM cell including a signal message according to an outgoing signal from a subscriber and distinguishing the intelligent network code / wired ATM / IMT-2000 mobile call of the received signal message by number classification of the signal message; And a process of performing a corresponding call processing based on a current signal message according to the divided call types. The method of claim 1, When the classified call type is an intelligent network call, the mobile intelligent network in the global mobile communication asynchronous transmission mode switch, characterized in that the mobile call number is obtained by performing a triggering process with the service control system through the basic call state model processing means. Call processing method. The method of claim 1, If the classified call type is a wired ATM call, the mobile intelligent network call processing method in the global mobile communication asynchronous transmission mode switch, characterized in that ATM call processing is performed by a corresponding call processing means. The method of claim 1, In case the classified call type is IMT-2000, the global mobile communication asynchronous transmission mode, characterized in that a call routing means obtains an incoming routing address of an actual mobile subscriber according to the MAP protocol procedure. Mobile intelligent network call processing method in exchange.