KR100246567B1 - Method of multiphasing from mobile station - Google Patents

Abstract

[purpose]

According to the present invention, in a digital mobile communication system using a CDMA method, a paging step is divided according to a paging area when paging is performed to find a destination mobile station, and the wasteful radio resources are minimized by sequentially processing the divided paging steps. The present invention relates to a method of multi paging to a destination mobile station to improve paging efficiency of a system.

[Configuration]

According to the present invention, after performing a first step of paging base stations in an area where a mobile station frequently changes its position, when the first step of paging fails, the paging area is extended to all base station areas in the exchange by paging the base stations. Step 2 is performed sequentially so that the destination mobile station is paged.

Description

Multi paging method to the destination mobile station

1 is a block diagram of a mobile communication switching system for performing the multi-paging process of the present invention.

2 is a signal flow diagram showing a multi-paging process according to the present invention.

<Description of the symbols for the main parts of the drawings>

100 exchanger 200 control station

300: base station 120: paging control unit

According to the present invention, in a digital mobile communication system using a code division multiple access (CDMA) method, a paging step is divided according to a paging area when paging is performed to find a destination mobile station, and the divided paging steps are sequentially processed to provide radio resources. The present invention relates to a method of multi paging to a destination mobile station to minimize waste and increase paging efficiency of the entire system.

In general, a CDMA mobile communication system is a communication system between mobile stations that can communicate with anybody, anytime, anywhere, using radio waves in a space, or between a mobile station and a fixed station. A base station for managing radio resources, a control station for controlling the base station and transmitting and receiving messages to and from the base station, and a switch for performing a switching role in conjunction with the control station, another station, and another network.

In such a mobile communication system, when the calling mobile station requests an incoming call to the called mobile station to make a call with the called mobile station, the call is made between the calling and receiving mobile stations by first searching for the called mobile station through a paging procedure and then connecting the call. have.

In the paging procedure for the destination mobile station as described above, in the past, paging is performed at a time on all base stations within the exchange from the base station in the area determined to be located to the neighboring base station which does not exist to the base station. I found the incoming mobile station.

However, since the conventional paging method performs paging for all base stations in the exchange regardless of the existence of the destination mobile station, it processes even unnecessary paging for the base station where the destination mobile station does not exist. In particular, when the destination mobile station is located at a location affected by the neighboring base station, the failure rate of the paging is very high and the paging performance of the entire system is degraded.

Accordingly, the present invention has been made to solve the above problems, and an object thereof is to sequentially perform radio paging of a first step and a second step according to an expansion of a paging area when paging to a destination mobile station. It is to provide a multi-paging method to a destination mobile station to minimize waste and paging failure rate and to improve paging performance of the system.

According to the multi-paging method of the present invention for achieving this object, after performing the first step of paging base stations in a region where the position variation of the mobile station frequently occurs, if the paging of the first step fails, The paging area is extended to the base station area to sequentially perform the second step of paging the base stations to page the destination mobile station.

Hereinafter, a multi-paging method to a destination mobile station of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a mobile communication switching system for performing a multi-paging process of the present invention, wherein a plurality of processing switching subsystems (Access Switching Subsystems), which are in charge of call processing of a mobile station (not shown); -MO to ASS-Mn ') (100-0 to 100-n) and a switch including a paging control unit 120 to control the paging process (Mobile Services Switching Center; hereinafter referred to as' MSC') (100) and BSCO to BSCn (200-0 to 200-n), which are a plurality of control stations 200 connected to each of the ASS-MO to ASS-Mn (100-0 to 100-n) of the switch 100. ) And BTSOO to BTSnm (300-00 to 300-nm), which are a plurality of base stations 300 connected under the BSCO-BSCn (200-0 to 200-n) in the control station 200, Data transmission to the mobile station is made.

The paging control unit 120 located in the switch 100 is a block for performing the paging process according to the present invention. When paging is performed using a database having information on each base station and LAI (Location Area Identity), which is currently mounted, Get the information you need.

Meanwhile, in the present invention, the basic unit of the paging area in the paging procedure is a base station, and it depends on how the base stations are grouped as all paging areas are based on the area of the base station.

Accordingly, although there are many operational considerations in the mobile communication network of the present invention, a certain base station section in which the location movement of the mobile station frequently occurs is bundled into one group, LAI, which is the basis of the paging area.

At this time, a base station belonging to one LAI may not belong to another LAI.

That is, the configuration of the LAI is finally determined by considering and testing various variables in the operation of the system and dividing it into the most appropriate area.

The most important information used when the mobile station moves its location and periodically registers the location information to the exchange is LAI, and whether or not the call is successful depends on how accurately the location of the mobile station is managed.

Therefore, from the system perspective, if the LAI configuration is divided into areas that suit the propensity of mobile station location movement, the call success rate of paging can be maintained at a very high level, and the paging resource load can be significantly reduced. .

Next, the multi-paging procedure to the destination mobile station using the paging control unit 120 in the mobile communication switching system configured as described above will be described with reference to the signal flow diagram of FIG.

When the originating mobile station attempts to make a call, the paging control unit 120 of the exchange 100 receives the location information of the destination mobile station composed of the LAI, the control station and the base station number, and has the location information of the received destination mobile station and its own. The primary paging is performed by finding the transmission path of the paging signal using the base station mounting information.

That is, paging information is configured by finding all base stations belonging to the LAI in the location information of the destination mobile station.

At this time, when paging is requested to the base station, the paging signal path needs to be known. Even if the base station belongs to the same LAI, the path, that is, the ASS-M subsystem and the control station may be different from each other.

Therefore, the base station information is used to select base stations with the same paths to send each paging signal to each ASS-M subsystem.

When the base station sorting operation having the same path is completed, a primary paging signal is sent to each corresponding ASS-M subsystem.

The ASS-M subsystem receiving the primary paging signal transmits a paging signal to the control station connected to the mobile station, and finally requests the primary paging from the control station to the corresponding base station to receive a response to the primary paging from the destination mobile station. waiting.

If there is no response to the primary paging from the terminating mobile station, the paging area is extended to all base stations in the exchange as well as base stations in the LAI to perform secondary paging.

That is, the paging area of the secondary paging attempts to paging the entire exchange to the base station for all LAIs currently used by the exchange.

Accordingly, as in the first paging, all LAIs in the exchange are found based on paging for the LAI, and then the base stations having the same path among the corresponding base stations are selected for each LAI, and the corresponding ASS-M subsystem and control station The secondary paging signal is transmitted in order of the base station, and then the secondary paging is requested.

Then, if there is no response to the secondary paging from the destination mobile station, the paging procedure for the next LAI is continued, and if there is a response, the call is connected to the destination mobile station to make a call between the calling and destination mobile stations.

When the paging procedure for one LAI is completed during the second paging, if there is no response from the destination mobile station, the paging procedure for the next LAI is repeated by repeating the paging procedure for the next LAI to request paging to the destination mobile station. do.

In terms of the operator, the secondary paging process is a case in which the call is not connected in the primary paging process even with an ideal LAI configuration. The reliability of the subscriber, that is, the success of the call, is more important than the efficient use of resources.

Therefore, for secondary paging, it is possible to maximize the aspect of this by paging to all possible areas of the exchange to connect the call.

As described above, according to the present invention, after performing the primary paging for the base station in the LAI, if there is no response from the destination mobile station, the secondary paging is performed by extending the paging area to all base stations for all LAIs in the exchange. This minimizes radio resource waste and paging failure rates and improves paging performance of the system.

Claims (1)

A first step in which the paging control unit 120 of the exchange 100 receives location information of a destination mobile station consisting of a location area identity (LAI), a control station and a base station number, when the originating mobile station attempts a call; A second step of selecting a base station having the same path among the base stations belonging to the LAI by using the location information of the destination mobile station and the base station actualization information received in the step; and when the selection of the base station is completed in the second step, the corresponding ASS-M sub A third step of requesting primary paging to a corresponding base station by transmitting a paging signal in the order of a system, a control station, and a base station; and if there is no response to the primary paging from the destination mobile station after the first paging request of the third step The fourth step of extending the paging area to the base station for all the LAI that is used in the step, and corresponding to all LAI in the exchange according to the paging extension of the fourth step Selecting a base station having the same path among the base stations, and transmitting a second paging signal to the corresponding ASS-M subsystem, the control station, and the base station and requesting the second base paging to the base station; If there is no response from the destination mobile station to the secondary paging after the secondary paging request, the paging procedure is performed sequentially for all LAIs until there is a response, and if there is a response, the sixth step of connecting the call to the destination mobile station. Multi-phasing method to a destination mobile station, characterized in that