JP2000512822A - Location management and paging method in cellular wireless system - Google Patents

Abstract

(57) [Summary] The present invention relates to location management and paging in a cellular radio system. In order to monitor the base station, a base station (BTS1-BTS8) for transmitting the base station identification code of the base station itself and neighboring cell information as base station information at the broadcast frequency of the base station itself, and the cellular radio system. A mobile station (MS) for receiving the information. In the location management method according to the invention, the contact area of the mobile station (MS) is stored for each network activity and updated when the mobile station (MS) does not receive any identification belonging to the contact area on the broadcast frequency. . The paging method according to the present invention uses the stored contact area and cell information of its neighbor when paging a mobile station (MS). The invention also relates to a cellular radio system and a mobile station implementing the above functionality.

Description

DETAILED DESCRIPTION OF THE INVENTION        Location management and paging method in cellular wireless system Field of the invention   The present invention relates to a location management and paging method in a cellular wireless system. Related. The cellular radio system comprises base stations, and the base stations Broadcasting of their own identification code and neighboring cell information as base station information Transmit at the cast frequency. In the position management method of the present invention, the system also includes: A mobile station for receiving said base station information for the purpose of monitoring the base station.   The invention also relates to a cellular radio system and a mobile station. That cellular The system wireless system uses the base station identification code of the base station itself and neighboring cell information as base stations. A base station that transmits at its own broadcast frequency as station information, And a mobile station that receives the base station information for the purpose of monitoring the base station information. Background of the Invention   In mobile systems, mobile station location data is used to route incoming calls. And required for other network services. Each mobile station location is usually Is stored in the system register with the accuracy of the location area. Location d Rear size is determined by the network operator, but it is too small must not. This is because updating the location of a mobile station causes a significant signaling load. In such cases, for example, it consumes the limited radio resources of the network. It is because. On the other hand, large location areas require location update signaling. Each base station in the location area transmits the call to the mobile station. Paging of mobile stations within a large area will Causes a large signaling load both between the network switch and the base station. Rub Therefore, the problem of location area design, on the other hand, is Unnecessary location update signaling caused by the application area, On the other hand, when a mobile station is paged, A large call signaling load caused.   FIG. 1 of the accompanying drawings is a block diagram of a simplified example of the structure of a GSM mobile system. FIG. The devices shown in the figure are also found in other mobile networks But they may be called by different names. Idle mode or The mobile station MS in the active mode is always connected to the base transceiver station BTS. In the case shown in FIG. 1, it is connected to the base station BTS1. Base station system The BSS comprises a base station controller BSC and a BTS under its control. Typically, the mobile services switching center MSC controls several BSCs. MSC Via the other MSC and the gateway mobile services switching center GMSC To communicate with the public switched telephone network. Mobile station location data and other subscriber data are Is permanently stored in the home location register HLR of the It is temporarily stored in the visitor location register VLR of the located area. The VLR stores the position data of the MS with the accuracy of the location area LA.   The geographic area controlled by the VLR may be one or several locations The MS is free to navigate within each area without notifying the VLR. You can move. One or several BTSs operate in each location area it can. Continuously, the BTS transmits the base station identification code BSIC, neighbor cell information, Related to themselves and their environment, such as the application area identifier LAI. Information to be transmitted. Based on the last mentioned location area identifier LAI , BTS knows the LA in which the MS is currently located. Change BTS If the MS notices that the base station LAI has changed, Sends a location update request to the network. VLR of the area where the MS is currently located , The location area of the MS is updated. V in the area where MS is located Information about the LR is transmitted to the HLR.   For example, due to possible cell changes, the MS may be located near the cell where the MS is located. The base station signal to be measured is continuously measured. Broadcast by each base station Based on the neighboring cell information transmitted on the control channel, the mobile station Identify neighboring cells to be monitored. For example, in a GSM mobile system, the MS The signal level of up to 32 other base stations in addition to the serving base station. And / or quality can be measured simultaneously.   The mobile station location data stored in the mobile system registers may be Used in routing of mining calls. Mobile station obtained from HLR and VLR Based on the location data, the incoming call is called according to the location data. Are routed to the MSC in the area where the MS is currently located. For call establishment , MSC requests the called party's data from its own VLR. VLR is For example, the LA of the MS stored during the last location update, ie as shown in FIG. In some cases, necessary data for the MS including the LA1 is transmitted. Location Based on the area data, the MSC sends a paging message to the location Via all the rear BTSs, i.e. BTS1, in the case shown in FIG. The data is transmitted to the MS via BTS2 and BTS3. Paged MS paging When receiving a message, the MS sends the message via the most appropriate base station, eg, FIG. A response is transmitted to the paging message via the BTS1. Since then, the network Assigns a traffic channel to the call and establishes a voice connection to the MS .   GB 2 243 976 is a dynamically changeable location area Partly overlaps and comes and goes near the border between the two location areas Disclosed is a mobile system that avoids updating the location of a mobile device. Move according to references The station has a route memory in which the mobile station stores the last location update procedure. After the cigar, the mobile station stores the identification code of the base station of the cell that has passed. Repositioning For new, the mobile station transmits the stored route list to the base station and at the same time Empty the root memory of. The base station uses the route transmitted by all mobile stations The cumulative value of the list is calculated for each neighboring base station and its location area A, the base station in the vicinity through which the majority of mobile stations passed, Revise to include neighboring base stations with cumulative values. Belongs to location area The number of base stations is changed based on base station location updates and paging loads. This Continuous location area planning is implemented in the system, as in . In the mobile system disclosed in the reference, a base station sends a message to a certain mobile station. Out Location messages in the form of broadcast messages or continuous broadcasts. Transmit location area data including a list of rear base stations. References In the embodiment, the mobile station transmits the base station identification code received by the mobile station to the mobile station. And compares it with the base station identification code stored in the port memory. If the corresponding base station identification If the code cannot be found in the route list, the mobile station The base station identification code in the location area data list received from Compares with the identification code of the base station in the area where the last location update procedure was executed. You. If the base station identification code is not included in the location area list If so, the mobile station sends a location update request. Otherwise, the mobile station will recognize the new base station Another code is stored in the root memory. Paging when mobile station is paged The message is sent via all base stations currently belonging to the location area Transmitted. The problems with the equipment disclosed in the references are, in particular, Complex configuration of base station and mobile station including table change of station and route memory . Calculation and storage of dynamic location area and continuously changing location Transmission of the application area list requires special equipment from the base station. Purpose of location management Long base station identification code list transmitted for signaling messages only Increase the size of In order to provide the optimal location area configuration, Area planning should be based on more complex criteria. No. The above decision on mobile location update compares different long lists Requires the processing capacity of the mobile station to store. Also, if the mobile station is currently If the located cell is removed from the mobile station location area, In this case, a change in the location area may require a special location update. May be.   EP 454 648 is a mobile station paged in an extended paging area Mobile system that can route calls despite incorrect location data Is disclosed. The location area where the mobile station may possibly be located is also In addition to the normal location update of the mobile station, it is stored in each mobile station's "indeterminate" list . In the embodiment disclosed in the reference, the uncertainty list is the current location of the mobile station. Area, at least one previous location where the mobile station was registered D Rear, the mobile station has made the call or the transmitted paging message Includes the area located when responding. If the mobile station If it does not respond to the paging message transmitted in one MSC area, The paging message is an expanded page according to a previously stored uncertainty list. It is transmitted to the mobile station in the jing area. The paging message is also one location Can also be transmitted at the same time in the application area. The problem with this device is the paging The message is transmitted simultaneously in all location areas of the extended paging area. A lot of paging that generates a lot of signaling when sent. If If the moving subscriber moves a lot, the extended paging area will be May include several location areas located in different This creates an unnecessary paging load on the network. At the same time, one mobile station When paged in the location area, the wait time for call establishment depends on the calling subscription Too long for the person. Also, form an uncertain list of all mobile stations in the system Remembering puts a load on the fixed network, and the special equipment of the network I need. Overview of the present invention   It is an object of the invention to load the system so that In a simple way to reduce unnecessary signaling of work, cellular wireless systems Providing location management and paging in the system.   This new type of location management is realized in a way according to the invention, and each network Mobile station contact area for network activity (Contact area), and the mobile station stores identification data belonging to the contact area. Contact area data when not receiving at the base station broadcast frequency Is characterized by updating.   A new type of mobile paging is the last network activity. Page the mobile station via the base station in the contact area stored for And, if the mobile station transmits a packet transmitted via the base station in the contact area. If you do not respond to the aging message within the predetermined time, the stored contact To page the mobile station via the base station indicated by the cell information in the neighborhood of the area It is realized in a method according to the invention characterized by:   Location management and paging in accordance with the present invention is a cellular of the type described in the preamble. System according to the present invention, wherein the system comprises Memorize the contact area of the mobile station for the network activity of the The mobile station broadcasts any identification code belonging to the contact area from the base station When not receiving on the frequency, the contact area data is updated and the page The mobile station to the contact area via the base station. The paging message transmitted via the base station in the contact area If it does not respond in time, a paging message to the mobile station will be sent to the contact To be transmitted via the base station of the cell indicated by the rear neighbor cell information. Is characterized by the fact that   The invention also relates to a mobile station, wherein the mobile station is for monitoring a base station. The base station identification code transmitted by the base station at its broadcast frequency And receiving cell information of the neighbors, according to the present invention, the mobile station comprises: Remember and move contact areas for each network activity The station identifies any identification code belonging to the contact area with the broadcast frequency of the base station. The feature is that the contact area data is updated when not receiving Be charged.   Utilize base station neighbor cell information instead of separate location area Management and paging are based on the cellular configuration of the network The present invention is based on the idea of   Location management according to the present invention can be used to identify contact areas, for example, contact cells. Base station identification code, or the base station identification code and a neighboring base station identification code. By storing both in the fixed network and the mobile station. Is done. When moving from one cell to another in a network, a mobile station The base station identification code received by the station from the cell base station and the neighbors to be monitored The identification code of the base station is compared with the identification code of the contact area. Which contact The area identification code is also the base station identification code received by the mobile station or When the mobile station does not match the neighboring base station identification code to be monitored, the mobile station Notify the base station, so that fixed networks and mobile stations The identification of the cell area, for example, the base station identification code of the cell or Updates this identification code and the neighboring base station identification code. If the mobile station If communicating with the network for any other reason, for example, if the mobile station Receive or use some other telephone service, or the mobile station Service request to the network, a new contact area The identity is stored as the identity of the contact area after service.   First, via the base station in the contact area stored for location management, By transmitting a paging message to a mobile station, a paging message in accordance with the present invention is provided. Is implemented. If the mobile station does not respond to the page within the predetermined time, The aging message is a cell information of the neighbor of the base station in the stored contact area. Are transmitted to the mobile station via the base station indicated by. Page transmitted in the second stage Broadcast messages only via nearby base stations that do not belong to the contact area. Can be restricted to send. If necessary, do the first stage paging It can be implemented in the form of two pagings, whereby the mobile station first stores Paged via the base station of the contact cell that was contacted, if the mobile station If it does not respond to the paging message transmitted within Via the base station indicated by the stored neighbor cell information of the contact cell. Transmitted to mobile station.   Such location management and paging methods include separate locations of the network. There is an advantage that there is no need to design an installation area.   In addition, the vaging method according to the present invention includes a signaling on a wireless network. There is the advantage of reducing the load. For example, a mobile subscriber hardly moves off Mobile users, paging mobile stations according to the present invention to only one cell. In this case, paging signaling is significantly reduced.   Another advantage of the location management method according to the present invention is that When the area is not included, the location area identification or code is The need to transmit at a broadcast frequency. Cellular system according to the invention The base station of the wireless system does not transmit any data especially for location management only, Therefore, the present apparatus can reduce the signaling from the base station to the mobile station.   The location management method also provides the network with a location that triggers a location update. Location update load on separate base stations of the wireless network when not divided into It has the advantage of being evenly distributed.   The advantages of the cellular radio system and the mobile station according to the invention are their simple Configuration. This is because the implementation of the present invention is not limited to the configuration and use for other network equipment. This is because functionality is used. BRIEF DESCRIPTION OF THE FIGURES   The present invention will be described in more detail below with reference to the accompanying drawings.   FIG. 1 is a block diagram of a simplified configuration of a cellular wireless system.   FIG. 2 shows a first example of a cellular configuration of a wireless network.   FIG. 3 is a flowchart illustrating location management according to the first embodiment of the present invention. You.   FIG. 4 shows another example of a cellular configuration of a wireless network.   FIG. 5 is a flowchart illustrating a paging method according to the first embodiment of the present invention. It is.   FIG. 6 is a flowchart illustrating a paging method according to a second embodiment of the present invention. It is. Detailed description of the invention   The invention can be applied to all cellular mobile systems. The present invention An example is given below for the European Digital Mobile System GSM. Figure 1 , Shows a simplified configuration of the above GSM network. More on the GSM system For a detailed description, see the GSM Recommendation and M. Mouly and M.S. "Mobile body communication" by Pautet The GS MSystem for Mobile Communications ”( Palaiseau, France, 1992, ISBN: 2-9507190-0-7).   FIG. 2 shows that the geographic area covered by the network is from cells C1 to C1. 8 and when the MS is located in each cell, the MS is a base station located in the cell. A simplified cellular configuration for communicating with the network via BTS1 through BTS8 Here is a simplified example. According to the present invention, the cellular configuration of the network is It is not divided into solution areas. The base stations BTS1 to BTS8 of the network For example, their own base station identification code and neighbor cell information can be On the broadcast frequency according to the GSM recommendation. The transmitted neighbor cell information is Contains data about cells other than cells that were traditionally considered neighbor cells . The term "neighboring cells" is used in this application to refer to Everything indicated on the broadcast frequency by the base station, without saying what cell is located Say the other cell. All mobile stations located in the cell area are transmitted by the base station Received the broadcast, and determined the signal of the indicated base station by the GSM recommendation. Measure according to the method specified.   The term "cell identification" is used in this application to identify a network cell and thus Any identification data that can be used to determine the geographical extent of the contact area Say ta. The invention will be described below mainly with respect to the processing of base station identification codes. However, the contact area identification can also be determined by other explicit broadcasts by the base station. Identification may be included. Therefore, the base station identification code is widely used in this application, It should be considered to refer to any identifying data that defines a workcell.   In the cellular radio system according to the invention, instead of the location area , The contact area data is used as the location data of the mobile station. The present invention In one embodiment, the contact area is a contact cell, i.e., the mobile station The last cell to communicate with the network. Check the connection to the network Active mobile station activities include, for example, making or receiving calls, and further services. Service and other teleservices provided by the network, and Includes contact area updates described below.   Hereinafter, the present invention will be described in more detail in the first embodiment with reference to FIG. When the connection from the mobile station to the network is terminated, for example, a base station identification code and The identification of such contact cells is called MS and, for example, MSC or BSC. Stored on both fixed networks. In FIG. 2, the last network of the MS is shown. The activity is terminated in the area of cell C1, and therefore the contact cell The base station identification code BSIC1 of the base station BTS1 of C1 is, for example, BSC and M Assume that it is stored in S. For the purpose of base station measurement, continuously, the MS From the broadcast frequency of BTS1, the identification code BSIC of the transmitting base station 1 and neighboring base stations BTS2, BTS3, BTS4, BTS5, BTS6, BT S7 identification code BSIC2, BSIC3, BSIC4, BSIC5, BSIC 6. Receive base station information including BSIC7. The MS according to the invention also comprises The identification code BSIC1 of the contact cell C1 in which the MS last stores the local station information and This base station information is also used for position management by comparison. Comparison results As a result, a common identification code BSIC1 is found in both compared data Therefore, location management does not require any action. Route where MS is shown in the figure When moving to C7 according to 20, the MS is transmitted by BTS7, Separate codes BSIC7, BSIC2, BSIC1, BSIC6 and shown in FIG. The base station information including the identification code of the base station in the vicinity of no BTS 7 is received. Mobile station Compares the received base station information with the common Compare with the stored identification code BSIC1 of the contact cell which is the identification code . Therefore, location management also does not require any action to be performed. MS is more When traveling along the port 20, similarly, as described above, by the BTS 6 of C6 Transmitted and again the MS compares the stored identification code BSIC1 of the contact cell The MS receives the base station information to be compared. In addition, MS is in the C7 area As before, make sure that BSIC1 is in the identification code of the neighboring cell of BTS6. Can be found. Next, the MS moves along the route 20 to the area C8. I do. Here, the MS is transmitted by the BTS 8 and the base station identification code BSI C8, BSIC6, BSIC5 and base stations near BTS8 not shown in the figure. Receive base station information including an identification code. The mobile station shall identify the contact cell. The BSIC1 is compared with the received base station information. As a result of comparison, the same base station Another Can't be found. Therefore, the mobile station sends a contact cell update message to the BTS. 8 and at the same time BSIC8 as its own contact cell identification code. Update. Correspondingly, a fixed network such as BSC has been The identification code BSIC8 of the BTS 8 is stored as a new contact cell identification.   FIG. 3 shows, in the form of method steps, location management of a mobile station according to a first embodiment. You. If the MS is engaged in network activity, the process is Move from step 30 to step 31. The connection to the network is BTS1 When terminated with the MS, in step 31, for example, The identification code of the base station BTS1 that later served was MS and, for example, M Mobile station contact cell identification on fixed network such as SC or BSC Is stored as If the MS is not involved in network activity If not, in step 33, the base station information received from the base station is stored in the MS. Is compared with the contact cell identification. When the MS is located at C7 in FIG. Contacts base station information BSIC7, BSIC2, BSIC1, BSIC6, etc. To the cell identification BSIC1. If both data to be compared have the same identification code No update of the contact cell is performed because it includes the source BSIC1. Mobile station You can keep moving without contacting the network. MS is C8 in FIG. When arriving in the area, the comparison performed in step 33 should be compared. No common identification code is found for both data. Therefore, MS Transmits a contact cell update message via the BTS 8. Fixed network And the MS stores the BSIC 8 as the new contact cell identification (step 34).   In a second embodiment of the cellular radio system according to the invention, a contact area A) indicates the contact cell and cell information near the base station of the contact cell. Cells to be included. In the following, referring to FIG. 4, the present invention will be described in a second embodiment. Perform more details. Figure 4 shows the geographical area covered by the network. The rear is divided into cells C1 to C13. MS Network Activity For example, when the network connection is terminated in the area of the contact cell C1, For example, the base station identification code BSIC1 of the contact cell and the neighborhood of the BTS1 Neighboring base station identification codes BSIC2, BSIC3, BSIC included in the cell information 4. BSIC5, BSIC6 and BSIC7 are recorded on the fixed network and MS. Remembered. When the MS moves to C7 according to the route 40 shown in FIG. The MS receives base station information from the BTS 7 as described above with respect to. MS is The received base station information BSIC7, BSIC2, BSIC1, BSIC6, etc. Base station identification codes BSIC1, BSIC2, BS of the stored contact area Compare with IC3, BSIC4, BSIC5, BSIC6 and BSIC7. Comparative As a result, four common base station identification codes BSIC1, BSIC2, BSIC6, B Find SIC7. Location management does not require the implementation of any action. Similarly, C6 In the area, the MS as a result of the comparison, a common base station identification code BSIC1, Find BSIC5, BSIC6, BSIC7. MS moves to C8 area The MS may, as a result of the comparison, use the common base station identification code BSIC Find 5 and BSIC6. Therefore, measures to update the contact area Is not required at all. When the MS moves to the area of C11 according to the route 40, The MS sends base station identification codes BSIC11, BSIC12, BSIC from BTS11. 8, BSIC 10 and the like are received as base station information. MS identifies these identification codes Is compared to the stored contact area identification, the result of the comparison is the same base station There is no identification code. In such a case, the MS will send the contact area update message. The message is transmitted to the network via the BTS 11. Fixed network & The MS transmits the base station identification code BSIC11 and the neighboring base station identification code BSIC1. 2. Update BSIC8, BSIC10, etc. as a new contact area.   In a first embodiment of the cellular radio system according to the invention, the MS When necessary, the paging message is transmitted in two stages, if necessary. At first , MS paging is performed by a fixed network such as MSC or BSC. It is transmitted via the base station of the contact cell stored in the work. Shown in FIG. The page to the MS when the stored contact cell is C1 The signaling message is transmitted via BTS1. If the MS has specified a If not responding in time, the paging message will be in the vicinity of contact cell C1. BTS2, BT of C2, C3, C4, C5, C6, C7 indicated by neighboring cell information S 3, and transmitted to the MS via BTS4, BTS5, BTS6 and BTS7. Pe The second stage of aging is also the page in both the contact cell and its neighbors. This can be implemented by transmitting a signaling message.   FIG. 5 shows the paging of the MS in the form of method steps in the first embodiment. You. In step 51, the paging message is sent to the command stored in the network. It is transmitted to the MS in the contact cell. In step 51, the paging message is It is transmitted to the MS in a contact cell stored in the network. In step 53 Is monitored whether the MS responds to the transmitted paging message You. If the MS does not respond within a predetermined time, the paging message is: The cell is transmitted to the MS in the cell indicated by the cell information adjacent to the contact cell (step 55).   In a second embodiment of the present invention, if necessary, the paging of the MS takes three steps. Will be implemented. FIG. 6 illustrates the paging of the MS as a step of the method in the second embodiment. In the form of a loop. First, in step 61, the paging message is Via the contact cell base station stored in the workpiece, ie, as shown in FIG. Is transmitted to the MS via the BTS1 of the contact cell C1. The steps in FIG. In step 62, it is monitored whether the MS responds to the page. If MS If it does not respond within a predetermined time, a paging message is recorded on the network. Cells C2, C3, and C4 indicated by cell information near the memorized contact cell C1. , C5, C6, C7 to the MS (step 63 in FIG. 6). The second stage The aging message is also transmitted in the contact cell C1 in addition to the cell. obtain. In step 65, it is determined whether the MS responds to the page transmitted in the second stage. Is monitored. If the MS still responds, as shown in step 67 If not, the paging message will be Tact area base stations BTS1, BTS2, BTS3, BTS4, BTS5, B In all the cells indicated by the cell information of the neighbors of TS6 and BTS7, that is, in FIG. C13, C9, C8, C12 and other contact areas not shown in FIG. In neighboring cells, transmitted to the MS. Optionally, the last stage of paging is in the neighborhood Of all the cells indicated by the cell information, that is, the cells belonging to the contact area so May also be implemented by transmitting a paging message.   The mobile station according to the invention requires little change in the configuration of the prior art mobile station. Mobile station storage, comparison and message formation means used in conventional location management are Modified to implement the functionality according to the present invention based on the tact area concept. obtain. The mobile station according to the present invention transmits all data required by the mobile station for location management. Obtain from the stem base station. Therefore, the mobile station sends the update message of the contact area. It just has to generate a sage. The mobile station memory is It only stores the identification of the target area. Therefore, the mobile station can There is no need to keep data on the ruler configuration.   The above location management method may be used alone or in a cellular wireless system. Can be used in appropriate combination with the prior art location update methods. Departure The location management according to the description is combined with the method using the traditional location area At times, the location management of a user traveling in different ways can be optimized.   The figures and the related description are only intended to illustrate the idea of the invention. Departure Location management and paging method, cellular radio system and mobile station Details can vary within the scope of the claims. Cellular wireless system according to the invention System also allows contact data to be stored in a separate auxiliary register .

[Procedure of Amendment] Article 184-8, Paragraph 1 of the Patent Act [Submission date] August 25, 1998 (1998.8.25) [Correction contents]                                The scope of the claims 1. The base station identification code of the base station itself and neighboring cell information are used as base station information. A base station (BTS1-BTS8) transmitting at the broadcast frequency of the base station itself; Mobile station (MS) that receives the base station information for the purpose of monitoring the base station A) a location management method in a cellular wireless system comprising:       Step for obtaining a contact area of a mobile station (MS) from the base station information And       Mobile station (MS) contact for each network activity Storing the storage area,       A mobile station (MS) transmits identification data belonging to a contact area to the base station information. If no information is received on the broadcast frequency of the base station (BTS) in the Updating contact area data. 2. To update the contact area data,       The base station data of the base station information received by the mobile station (MS) is stored in the stored Comparing with the contact area base station data;       As a result of comparison, when there is no identical base station data, a new contact area Storing the data. 3. To remember the new contact area,       Transmitting a contact area update message from a mobile station (MS) When,       Store contact area on both fixed network and mobile station (MS) 3. The method of claim 1 or claim 2, comprising the steps of: 4. The identification of the contact cell of the mobile station (MS) is stored as a contact area. The method according to claim 1, claim 2, or claim 3. 5. Mobile station (MS) contact cell identification and cell information in the vicinity of the contact cell The identification of the cell indicated by the information is stored as a contact area. Or the method of claim 3. 6. The base station identification code is stored as a cell identification. The described method. 7. The base station identification code of the base station itself and neighboring cell information are used as base station information. Base stations (BTS1-BTS8) that transmit at the broadcast frequency of the base station itself Method for paging a mobile station (MS) in a cellular wireless system And       Mobile station (MS) contact for each network activity Storing the storage area,       Contact area remembered for last network activity Paging the mobile station (MS) via the base station;       If the mobile station sends the page transmitted via the base station in the contact area If you do not respond to the broadcast message within a predetermined time, Page the mobile station (MS) via the base station indicated by the neighboring cell information And a step. 8. To page a mobile station via the base station in the stored contact area In the meantime, the mobile station (MS) sends a page via the stored contact cell base station. 8. The method of claim 7, wherein the method is performed. 9. The paging of the mobile station via the memorized contact area base station is ,       Page mobile station (MS) via the base station of the stored contact cell Steps       If the mobile station transmits a paging transmitted via the base station of the contact cell, If you do not respond to the contact message within the predetermined time, the stored Steps to page mobile station (MS) via base station indicated by neighbor cell information The method of claim 7, comprising: 10. If the mobile station transmits a page transmitted via the base station in the contact area If you do not respond to the switching message within a predetermined time, Except for the station, the base station indicated in the stored cell information of the contact area is The method according to claim 7, wherein the mobile station (MS) is paged via: 11. The base station identification code of the base station itself and neighboring cell information are used as base station information. Base station transmitting at its own broadcast frequency (BTS1-BTS8) And a mobile station (M) receiving the base station information for the purpose of monitoring the base station. S) and a cellular wireless system comprising:         Acquiring a contact area of a mobile station (MS) from the base station information; And         Mobile station (MS) contours for each network activity And memorized the project area,         The mobile station (MS) assigns any identification code belonging to the contact area to the base When the station information does not receive at the broadcast frequency of the base station (BTS), Update contact area data,         The base station in the contact area where the paging message was last stored To the mobile station (MS) via         If the mobile station transmits a page transmitted via the base station in the contact area If you do not respond to the paging message within the specified time, The mobile station (via the base station of the cell indicated by the cell information near the contact area) (MS). 12. The contact area includes a mobile station (MS) contact cell. System. 13. The contact area is the contact cell of the mobile station (MS) and the contour The system according to claim 11, further comprising a cell indicated by cell information of a neighbor of the target cell. 14． Paging messages to contacts located outside the contact area The information is transmitted to the mobile station (MS) via the base station of the cell indicated by the cell information in the neighborhood of the area. The system of claim 11, adapted to send. 15. For the purpose of monitoring the base station, the base station (BTS) Receives base station identification code and neighboring cell information transmitted on loadcast frequency In a mobile station adapted to         A contact area is obtained from the base station information;         Remember contact area for each network activity To be         The mobile station identifies any identification code belonging to the contact area with the base station information. In the case of not receiving at the broadcast frequency of the base station (BTS), A mobile station characterized in that the mobile station is adapted to update the area data. 16. To update the contact area data,         Record the received base station identification code and base station data of neighboring cell information. To be compared with the memorized contact area base station data,         As a result of the comparison, when there is no identical base station data, a new contact area The mobile station according to claim 15, wherein the mobile station is configured to register the mobile station. 17． To register a new contact area,         Send contact area update message to base station (BTS) And         Claim to be made to store the new contact area in the memory of the mobile station Item 17. The mobile station according to item 16.

────────────────────────────────────────────────── ─── Continuation of front page    (81) Designated countries EP (AT, BE, CH, DE, DK, ES, FI, FR, GB, GR, IE, IT, L U, MC, NL, PT, SE), OA (BF, BJ, CF) , CG, CI, CM, GA, GN, ML, MR, NE, SN, TD, TG), AP (GH, KE, LS, MW, S D, SZ, UG, ZW), EA (AM, AZ, BY, KG) , KZ, MD, RU, TJ, TM), AL, AM, AT , AU, AZ, BA, BB, BG, BR, BY, CA, CH, CN, CU, CZ, DE, DK, EE, ES, F I, GB, GE, GH, HU, IL, IS, JP, KE , KG, KP, KR, KZ, LC, LK, LR, LS, LT, LU, LV, MD, MG, MK, MN, MW, M X, NO, NZ, PL, PT, RO, RU, SD, SE , SG, SI, SK, SL, TJ, TM, TR, TT, UA, UG, US, UZ, VN, YU

Claims (1)

[Claims] 1. The base station identification code of the base station itself and neighboring cell information are used as base station information. A base station (BTS1-BTS8) transmitting at the broadcast frequency of the base station itself; Mobile station (MS) that receives the base station information for the purpose of monitoring the base station A) a location management method in a cellular wireless system comprising:       Mobile station (MS) contact for each network activity Storing the storage area,       The mobile station (MS) transmits identification data belonging to the contact area to the base station (BT). S) When no data is received at the broadcast frequency, the contact area data Updating. 2. To update the contact area data,       The base station data of the base station information received by the mobile station (MS) is stored in the stored Comparing with the contact area base station data;       As a result of comparison, when there is no identical base station data, a new contact area Storing the data. 3. To remember the new contact area,       Transmitting a contact area update message from a mobile station (MS) When,       Store contact area on both fixed network and mobile station (MS) 3. The method of claim 1 or claim 2, comprising the steps of: 4. The identification of the contact cell of the mobile station (MS) is stored as a contact area. The method according to claim 1, claim 2, or claim 3. 5. Mobile station (MS) contact cell identification and cell information in the vicinity of the contact cell The identification of the cell indicated by the information is stored as a contact area. Or the method of claim 3. 6. The base station identification code is stored as a cell identification. The described method. 7. The base station identification code of the base station itself and neighboring cell information are used as base station information. Base stations (BTS1-BTS8) that transmit at the broadcast frequency of the base station itself Method for paging a mobile station (MS) in a cellular wireless system And       Contact area remembered for last network activity Paging the mobile station (MS) via the base station;       If the mobile station sends the page transmitted via the base station in the contact area If you do not respond to the broadcast message within a predetermined time, Page the mobile station (MS) via the base station indicated by the neighboring cell information And a step. 8. To page a mobile station via the base station in the stored contact area In the meantime, the mobile station (MS) sends a page via the stored contact cell base station. 8. The method of claim 7, wherein the method is performed. 9. The paging of the mobile station via the memorized contact area base station is ,       Page mobile station (MS) via the base station of the stored contact cell Steps       If the mobile station transmits a paging transmitted via the base station of the contact cell, If you do not respond to the contact message within the predetermined time, the stored Steps to page mobile station (MS) via base station indicated by neighbor cell information The method of claim 7, comprising: 10. If the mobile station transmits a page transmitted via the base station in the contact area If you do not respond to the switching message within a predetermined time, Except for the station, the base station indicated in the stored cell information of the contact area is The method according to claim 7, wherein the mobile station (MS) is paged via: 11. The base station identification code of the base station itself and neighboring cell information are used as base station information. Base station transmitting at its own broadcast frequency (BTS1-BTS8) And a mobile station (M) receiving the base station information for the purpose of monitoring the base station. S) and a cellular wireless system comprising:         Mobile station (MS) contours for each network activity And memorized the project area,         The mobile station (MS) assigns any identification code belonging to the contact area to the base station (MS). (BTS) when not receiving at the broadcast frequency, the contact area data To be updated,         The paging message is sent to the mobile station via the base station in the contact area ( MS) to be transmitted to         If the mobile station transmits a page transmitted via the base station in the contact area If you do not respond to the paging message within the specified time, a paging message The mobile station (via the base station of the cell indicated by the cell information near the contact area) (MS). 12. The contact area includes a mobile station (MS) contact cell. System. 13. The contact area is the contact cell of the mobile station (MS) and the contour The system according to claim 11, further comprising a cell indicated by cell information of a neighbor of the target cell. 14． Paging messages to contacts located outside the contact area The information is transmitted to the mobile station (MS) via the base station of the cell indicated by the cell information in the neighborhood of the area. The system of claim 11, adapted to send. 15. For the purpose of monitoring the base station, the base station (BTS) Receives base station identification code and neighboring cell information transmitted on loadcast frequency In a mobile station adapted to         Remember contact area for each network activity To be         The mobile station identifies any identification code belonging to the contact area to any base station (BTS). ) Update contact area data when not receiving on broadcast frequency A mobile station characterized in that 16. To update the contact area data,         Record the received base station identification code and base station data of neighboring cell information. To be compared with the memorized contact area base station data,         As a result of the comparison, when there is no identical base station data, a new contact area The mobile station according to claim 15, wherein the mobile station is configured to register the mobile station. 17． To register a new contact area,         Send contact area update message to base station (BTS) And         Claim to be made to store the new contact area in the memory of the mobile station Item 17. The mobile station according to item 16.