KR100459168B1 - Method for auto assignment Base Station Controller signalling point code in mobile communication system - Google Patents

Abstract

The present invention relates to automatic assignment of a signal point code of a control station in a mobile communication system, and to provide a method in which an exchange station can automatically assign a signal point code of a control station. In the mobile communication system of the present invention, the method for automatically allocating a control station signal point code may include transmitting a signal point code request message from a control station to an exchange station, and distinguishing the control station from the exchange station receiving the signal point code request message. Generating a signal point code and attaching the generated signal point code to a signal point code assignment message and automatically transmitting the signal point code to the control station when the signal point code is attached; It consists of a step of storing.

Description

Method for auto assignment Base Station Controller signaling point code in mobile communication system

The present invention relates to a method for automatically allocating a control station signal point code in a code division multiple access mobile communication system, and more particularly, to a control station signal point code in a mobile communication system suitable for automatically allocating a signal point code from a switching station to a control station. It is about an allocation method.

The mobile communication system is composed of a mobile terminal (cell phone), a base transceiver station (BTS), a control station (BSC: base station controller) and a switching center (MSC: mobile switching center). The signal format is changed to be suitable for the wireless link and the wired link. The control station serves as a means of access between each element of the base station and the cell operator, and manages base station operation management, service state management of hardware and software in the base station, and call traffic. It performs monitoring functions such as resource allocation and configuration, collection of information on base station operation, and base equipment related to base station operation, monitoring and fixing. The switching center configures an access point for user traffic between the control station management and the mobile communication network and the mobile switching center of the general telephone network or the same mobile communication system.

Hereinafter, a network configuration of a code division multiple access mobile communication system according to the prior art will be described with reference to the accompanying drawings.

1 is a diagram illustrating a network configuration of a general code division multiple access mobile communication system.

A network configuration of a general code division multiple access mobile communication system includes various types of mobile terminals (21, 22, 23) receiving mobile communication services through 3G BTSs (11, 12, 13), and 3 A plurality of control stations 41 and 42 configured between the generation base stations 11, 12 and 13 and the mobile switching center 31, and a common line signaling scheme with the mobile switching station 31 (SS No. 7). 7) WIN / LBS (51), Short Message Service Center (SMSC) 52, Home Location Register / Authorization Center (HLR / AuC) 53, respectively Over-the-air Activation (OTA) 54 to wirelessly support the registration of mobile terminals 21, 22, and 23, and the asynchronous transmission method (ATM) with the control stations 41 and 42 and the mobile switching center 31 Virtual Private Network (VPN) (61) connected to the network, Network Address Translation (NAT) Server (62), Domain Name System (DNS) Server (63) , Home Agent (HA) server 64 and AAA Authentication, Authorization, and Accounting Dynamic Host Configuration Protocol (DHCP) server 65, a Packet Data Serving Node (PDSN) 71, also connected to an ATM network, a mobile switching center ( 31) and a common line signaling system (SS No. 7: Signaling System No. 7) network and a public switched telephone network 91. Here, OMC (Operation and Maintenance) 81 is an operation maintenance center, which operates and operates a Data Core Network (DCN), an ATM network, and a Voice Core Network (VCN) that provides packet data services. It is in charge of conservation. In addition, the mobile switching center 31 is connected to a voice mail system 33, an interworking function (IWF) 32, and a public switched telephone network (PSTN) 91.

In such a code division multiple access mobile communication network, a common line signaling method (No. 7) is used as a signaling method between a mobile switching center (MSC) 31 and a control station (BSC) (41, 42).

At this time, the control stations 41 and 42 have a point-to-point network shape connected only to one adjacent signal point, that is, the mobile switching center 31, and the mobile switching station 31 has one or more controls. It can be seen that it forms a point-to-multipoint network connection with stations 41 and 42.

Here, the mobile switching center 31 can identify each control station 41,42 using the signal point code assigned to the control station 41,42. In this case, the signal point code means a unique number for distinguishing each signal point (mobile switching station 31 or control station 41, 42), and moves with each control station 41, 42 when designing a mobile communication network. The common line signaling method (No) is designated in the memory area (not shown) of the block designated by the switching station 31 and responsible for the common line signaling method No. 7 in the control stations 41 and 42 and the mobile switching station 31. .7) stored as network data.

The operator can change the signal point codes of the control stations 41 and 42 and the mobile switching station 31 using the base station manager, a device for operating the control stations 41 and 42, and the mobile switching station ( 31) can change the signal point codes of the mobile switching center 31 and the control stations (41, 42) using the operating device, and selectively selects the signal point codes of the control stations (41, 42) connected to the mobile switching center (31). Can be deleted.

The method for allocating a signal point code between an exchange station and a control station of a mobile communication system according to the related art is a software for controlling a common line signaling system (No. 7) in a control station in a point-to-point network configuration in which a neighboring signal point of a control station has only one exchange station. In the block, the signal point codes of the control station and the exchange station are manually assigned and managed to reduce the efficiency of network operation.If an operator incorrectly specifies the signal points of the control station and the exchange station, signaling between the exchange station and the control station becomes impossible. There was a problem that can not be called.

The present invention has been made in view of the above-mentioned problems of the prior art, and automatically assigns a signal point code of a control station at an exchange station for efficient and stable operation of the common line signaling method No. 7 applied between the exchange station and the control station. The present invention provides a control station signal point code allocation method in a mobile communication system.

According to one aspect of the present invention, a step of transmitting a signal point code request message from a control station to an exchange station, and generating a signal point code capable of distinguishing the control station from the exchange station receiving the signal point code request message; Thereafter, the generated signal point code is attached to a signal point code assignment message, and when the signal point code attachment is completed, automatically transmitting to the control station, and storing the signal point code at the control station.

Preferably, the signal point code request message is transmitted using a message signal unit between the control station and the switching center.

The signal point code request message is included in the service indicator area of the message signal unit and transmitted to the switching center.

The message signal unit may include a length indicator area indicating length information in addition to the service indicator area, a sub-service field area indicating domestic / foreign exchange office information, a destination point code area indicating called party information, and a calling point code indicating source information. And a signal link selection area indicating link information connected between the control station and the switching station, wherein the switching station receives the signal point code request message sent from the control station, and then the A signal point code for distinguishing the switching station is generated and assigned to the calling point code area, and a signal point code for identifying the control station is generated and assigned to the called point code area and then transmitted to the control station.

Preferably the signal point code request message transmission from the control station to the switching station is sent after the status of the signal link between the control station and the switching station is initial aligned.

All messages except for the message associated with the signal point code allocation are discarded among the messages received when the control station does not receive the signal point code.

1 is a diagram illustrating a network configuration of a general code division multiple access mobile communication system.

2 is a flowchart illustrating a method for automatically assigning control station signal point codes in a code division multiple access mobile communication system according to the present invention.

FIG. 3 is a diagram for explaining a message format for requesting and responding to signal point code automatic allocation between a control station and an exchange. FIG.

4 is a flowchart for explaining a method for automatically allocating signal point codes in an exchange station according to the present invention.

Hereinafter, a configuration and an operation according to an exemplary embodiment of the present invention will be described with reference to the accompanying drawings.

2 is a diagram illustrating a signal point code automatic allocation method in a control station of a code division multiple access mobile communication system according to the present invention, and FIG. 3 is a signal point code automatic allocation request and response between a control station and an exchange station. The message format.

The signal point code automatic allocation method proposed in the present invention is divided into procedures at the switching center and the control station.

2 relates to a request for assigning a signal point code at a control station and a storage of an assigned signal point code in a method of automatically assigning signal point codes.

First, the control station is not assigned a signal point (S10), and the No.7 signal link is established by a function defined in Initial alignment (MTP (Multicast Transport Protocol)) level 2 in the signal link in the control station. If setup) is successful (S11), the signal point code automatic assignment process of the control station is started. Here, the state in which no signal point is assigned (S10) refers to a case in which a No. 7 signal link, which is a common line signaling method applied between the control station and the switching station, is not connected. At this time, if the initial allocation is not successful, other messages received by the control station are deleted (S12, S13).

If the signal link connected to the switching center succeeds in the initial allocation process, it is determined whether the signal link succeeds in the initial allocation first (S14), and if it is not the signal link that succeeded in the initial allocation, the first one is deleted. If the signal link succeeds, the state of No. 7 signal link, which is the common-line signaling system in the control station, is updated to a successful initial assignment state, and the signal link shown in FIG. The signal point code request message with the service indicator 1111 ₍₂₎ is transmitted to the switching center (S15). That is, the No.7 message has a 4-bit service indicator field, and the type of the No.7 message is distinguished according to the content of the service indicator. In this case, among the 4-bit service indicators, 0010 ₍₂₎ , 1011 _(2), 1100 _(2), 1110 _(2), and 1111 ₍₂₎ are spare reserved areas. Uses 1111 ₍₂₎ in connection with signal point code assignment. Therefore, when the data of the service indicator is 1111 ₍₂₎ , No. 7 of the switching center MSC or No. 7 of the control station BSC can recognize that the message is a message related to signal point code assignment.

In this case, the signal point code request message is included in a message signal unit (MSU), which is an information processing unit of No. 7, which is a common line signaling method, and transmitted to the switching center.

3 is a diagram illustrating a message format of a message signal unit (MSU). A signal point code request message requested from a control station to an exchange is included in a 4-bit service indicator of a 48-bit message signal unit. Is sent to the exchange.

As shown in Fig. 3, the message signal unit (MSU) is an 8-bit length indicator region (L1) indicating length information in addition to the 4-bit service indicator region (L1), and 4 indicating domestic / foreign exchange office information. A sub-service field of bits, a 14-bit destination point code area (DPC) representing the called party information, and a 14-bit origination point code area representing the source information. (OPC) and a 4-bit signal link selection area (SLS) indicating link information connected between the control station and the switching station.

The exchange station allocates the control station signal point code to the originating point code area (OPC) of the signaling point code request message transmitted from the control station, and assigns the switching station signal point code to the control station to the destination point code area (DPC). do.

In addition, a meaningless value is put in the origination point code area OPC and the destination point code area DPC.

Then, the control station updates the signal point code to the state requested by the switching station (S16), and when a signal point code assignment message is transmitted from the switching station (S17), the control point signal point code and the station signal point of the control station which are the local station signal point codes are transmitted. The exchange signal point code, which is a code, stores data of No. 7 network, which is a common line signaling method. However, other signals S19 and S20, such as a Signaling Link Test Message received from the switching center, are ignored and deleted until the signal point code is assigned.

Subsequently, the control station updates its state with the signal point code assigned (S21).

If necessary, the signal link test is performed on all signal links in the initial allocation success state.

4 is a flowchart for explaining a method for automatically allocating signal point codes in an exchange station according to the present invention.

When the switching station in idle state (S30) receives a message requesting a signal point code from the control station (S31), the control station automatically assigns a signal point code (S32).

At this time, the switching center generates a unique signal point code that can be distinguished from a plurality of control stations connected to the switching center, and as shown in FIG. The signal point code is transmitted to the control station by attaching a message including the signal point code of the assigned control station to the destination point code area DPC (S33).

The present invention as described above has the following effects.

First, when designing a CDMA mobile communication network, it is not necessary to manually specify the signal point code of the control station, but it is automatically generated and assigned to the control station and assigned to the control station. The operator who installs the system does not need to consider specially, facilitating the expansion process.

Second, since the operator does not need to manage the signaling point code of the control station, network operation can be facilitated, and the call can not be prevented due to the wrong signal point code assignment by the operator.

Claims (8)

Initial alignment of a signal link between the control station and the switching center; A control station including a signal point code request message in a service indicator area of a message signal unit and transmitting the same to a switching station; The exchange station receiving the signal point code request message generates a signal point code for identifying the control station, attaches the generated signal point code to a signal point code assignment message, and when the signal point code attachment is completed, Automatically transmitting to the control station; And storing the signal point code at the control station. delete delete 2. The method of claim 1, wherein the signaling point code request message uses one of the spare reserved areas of the service indicator area. The apparatus of claim 1, wherein the message signal unit includes a length indicator area indicating length information in addition to the service indicator area, a sub-service field area indicating domestic / foreign exchange station information, a called point code area indicating a called party information, and calling party information. And a signal link selection area indicating link information connected between the control station and the switching station. 6. The method of claim 5, wherein the switching center generates a signaling point code capable of identifying the switching station in the calling point code area of the received signaling point code request message after receiving the signaling point code request message sent from the control station. The control station in the mobile communication system, characterized in that the signal point code assignment message is generated and transmitted to the control station by generating and assigning a signal point code for identifying the control station in the destination point code area. How to automatically assign signal point codes. delete The control station signal of claim 1, wherein all messages except for the message related to the signal point code assignment are discarded among the messages received when the control station does not receive the signal point code. How to assign point codes automatically.