KR100800916B1 - Method of switching revision personality types in a mobile station based on a soft handoff gain - Google Patents

Abstract

A revision personality type changing method in an MS(Mobile Station) by considering a soft handoff gain is provided to be capable of updating accumulative variables based on the number of BSs(Base Stations) belonging to the same revision group and the number of BSs belonging to different revision groups, in order to determine whether to change a personality type of an MS, thereby ensuring revision interworking between the MS and the BSs. A route update message is received from an MS(302,304). BSs to be added to an active set of the MS and BSs to be removed from the active set are decided on from the update message(306). It is compared whether a revision supported by each BS is the same as the currently set revision of the MS to classify each BS into one group of the same revision group and different revision groups(308). Accumulative variables are updated on the basis of the number of BSs belonging to the same revision group and the number of BSs belonging to the different revision groups(310,312). Based on the variables, personality type changing of the MS is determined(314-324,314-320).

Description

METHOD OF SWITCHING REVISION PERSONALITY TYPES IN A MOBILE STATION BASED ON A SOFT HANDOFF GAIN}

1 is a diagram illustrating a plurality of geographically partitioned cells belonging to a control of one control station and a movement path of a mobile station moving through these cells according to an embodiment of the present invention;

FIG. 2 is a diagram illustrating an embodiment of a personality change command unit included in FIG. 1;

3 is a flow chart illustrating a method of changing an active set and changing a personality at an appropriate time in accordance with the movement of a mobile station, in accordance with an embodiment of the present invention.

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

102: mobile station 108: control station

104a-104j: cell 106a-106j: base station

108: control station 110: personality change command unit

202: route update message receiving unit

204: pilot signal analysis unit

206: base station classification unit

208: Revision storage unit for each base station

210: cumulative variable calculation and storage

212: weight storage unit

214: change command

216: active set storage unit for each mobile station

The present invention relates to a method of switching personality by type of Revision in a mobile station that supports both CDMA2000 1xEV-DO Revisions 0 and A. More specifically, the present invention relates to a continuity of call connection of a mobile station and between a base station and a mobile station. The present invention relates to a method of switching personalities at an optimal point in consideration of revision integration.

With the rapid development of mobile communication technology, the synchronous code division multiple access technology (CDMA2000), which is equivalent to the second generation mobile communication technology, has developed into a third generation CDMA2000 1xEV-DO supporting higher data rate. CDMA2000 1xEV-DO generally refers to CDMA2000 1xEV-DO Revision 0 (hereinafter referred to as Revision 0), which is optimized for high-speed mobile data services, with peak data rates of 2.4 Mbps and average data throughput of 300 to 600 kbps. It is known as the wide area wireless technology. Revision 0 has evolved back into CDMA2000 1xEV-DO Revision A (hereinafter referred to as Revision A), which has a higher data transfer rate than Revision 0, which is 3.1 Mbps for the downlink and reverse link. (uplink) can provide peak speeds up to 1.8Mbps and provide services such as video and video telephony, as well as voice and data.

With regard to the CDMA2000 1xEV-DO system, the concept of personality has been introduced. As is well known, when an access terminal (AT) wishes to establish a call session with an access network (AN) via a base station, such a mobile terminal and the control station are bilaterally negotiated. Which protocols will be used for communication, which applications will be supported, what kind of streams will be used by the streams of applications, and what types of public data will be used to share information between protocols or applications? The entire set that contains all of those things is called a personality. Revision 0 and Revision A described above have different personalities from each other, and a terminal supporting both Revision 0 and Revision A includes two personalities related to each revision.

In relation to the evolution of Revision described above, a mobile communication environment may be considered in which base stations located geographically close to each other support only one of Revision 0 and Revision A. In this case, each base station cannot communicate with a terminal set to a type of revision that is different from the type of revision it supports. Therefore, when a terminal supporting both Revision 0 and Revision A moves in such a mobile communication environment, not only handoff between each base station, but also switching of personality by revision at the terminal due to the change of the revision of the service base station is necessary. It becomes

When personality switching occurs in a terminal, the call channel with a base station having a revision type that matches the one previously set in the terminal must be stopped and a connection with a new base station of a revision type corresponding to the newly switched personality must be established. Interruption is inevitable. Then, whenever the terminal detects a pilot channel from a base station different from the currently set Revision type, if the terminal switches the personality of the terminal, call interruption occurs too frequently, resulting in deterioration of the call quality.

Accordingly, there is a need in the art for a method of switching the personality of a mobile terminal at an optimal time point in consideration of continuity of a call and revision interworking between the terminal and the base station.

Accordingly, an object of the present invention is to provide a method for switching the personality for each revision at an optimal time point in consideration of continuity of call connection and interworking between the base station and the terminal when moving between base stations of a terminal supporting both revisions 0 and A. .

According to one aspect of the present invention, there is provided a method performed at a control station having jurisdiction over a mobile station to determine whether to change the personality type of the mobile station supporting the first and second revisions. The personality of the mobile station has first and second types associated with the first and second revisions, respectively. According to the method of the present invention, the control station receives a route update message from the mobile station and determines, from the received route update message, a base station to be added to the mobile station's active set and a base station to be removed from the active set. Each of the base stations supports one of the first and second revisions. For each of the base stations to be added, each base station is classified into one group of the same revision group and a different revision group by comparing whether the revision supported by each base station is the same as the currently set revision at the mobile station. Then, the cumulative variable is updated based on the number of base stations belonging to the same revision group and the number of base stations belonging to a different revision group, and based on the updated cumulative variable, it is determined whether or not the mobile station changes its personality type.

According to one embodiment of the invention, the control station clears the cumulative variable in response to receiving the personality change complete message from the mobile station.

According to an embodiment of the present invention, the mobile station's active set is updated according to the determination of whether the mobile station's personality type is changed.

According to an embodiment of the present invention, the process of updating the cumulative variable multiplies the weight assigned to the number of base stations included in different revision groups by the number of base stations belonging to the active set, and adds the cumulative variable to the same revision group. Multiplying the weight assigned to the number of base stations included by the number of base stations belonging to the active set to subtract from the cumulative variable.

According to an embodiment of the present invention, the process of updating the cumulative variable may include adding a predetermined value to the cumulative variable if there are no base stations included in the active set, and if there are base stations included in different revision groups. If there is a base station included in the revision group, subtracting a predetermined value from the cumulative variable.

According to an embodiment of the present invention, based on the updated cumulative variable, determining whether the mobile station changes the personality type includes determining to change the personality type of the mobile station if the updated cumulative variable is equal to or greater than a threshold. .

According to an embodiment of the present invention, depending on whether the mobile station changes its personality, the updating of the active set of the mobile station replaces the active set with base stations belonging to different revision groups when it is determined to change the personality type of the mobile station, If it is determined not to change the personality type of the mobile station, removing the base stations determined to be removed from the active set and adding base stations belonging to the same revision group to the active set.

According to an embodiment of the present invention, a weight assigned to the number of base stations included in different revision groups and a weight assigned to the number of base stations included in the same revision group are updated as the number of base stations included in the active set increases. Is lowered and the smaller the number of base stations included in the active set, the higher the updated cumulative variable is assigned.

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

FIG. 1 is a diagram exemplarily illustrating a plurality of geographically partitioned cells under a control of one control station and a movement path of a mobile station moving through these cells according to an embodiment of the present invention. Although the case where the mobile station 102 passes through four adjacent cells of the plurality of cells 104a-104j is shown in the figure, it is natural that the case of passing through a larger number of cells may also be included. In this example, assume that the base stations 106a-106j all belong to the same control station and the mobile station 102 continues to communicate on the same frequency.

Mobile station 102 may include both individual personalities for Revision 0 and Revision A and may support both of these revisions. However, since the personality currently active must be one, the personality change occurs according to the situation. The base stations 106a-106j may only support one revision type each. In this figure, one cell is controlled by one base station, and cells of base stations having the same revision type are relatively close to each other (shown with the name and supporting revision type supported by one base station for each cell). It should be noted that a plurality of cells may be randomly mixed with the revision types of base stations of cells that are under the control of the same base station or that are arranged close to each other. At the top of each cell, an identification number of each cell is indicated.

The control station 108 is connected to the base stations 106a-106j by a communication link (not shown) to control the entire wireless network including the base stations 106a-106j, which is responsible for this function in FIG. The components described above are collectively represented by the control processor 112. According to the present invention, the control station 108 further includes a personality change command unit 110 for instructing the mobile station 102 to switch the personality. The personality change command unit 110 includes information on each revision type (eg, revision 0 or revision A) of each base station 106a-106j belonging to the control station. In the figure, the personality change command unit 110 is illustrated as being included in the control station 108, for example, but the present invention is not limited thereto.

According to the embodiment shown in FIG. 1, the mobile station 102 initially located in cell 104a moves in the order of cells 104a-> cell 104c-> cell 104e-> 104f. It is shown. The movement trajectory of the mobile station 102 is shown in dashed lines. When the mobile station 102 moves between cells 104a-104j, handoff must occur in order to receive continuous communication service.

Handoff refers to changing the call path to a moved cell in order to continue to maintain the call when the mobile station 102 moves out of the serviced base station area to another base station. In the CDMA method, when the mobile station 102 moves to a base station belonging to another control station or changes a call channel to another frequency channel, the mobile station 102 performs a hard handoff, which is a method of disconnecting an existing line first and then connecting to a new base station, As shown in the figure, when the mobile station 102 communicating at the same frequency moves between base stations 106a to 106j belonging to the same control station 108 to perform handoff, the existing call path is maintained as it is. While performing a soft handoff to support the new channel with the new base station. Soft handoff is known as a handoff method that connects a call through an intermediate process of simultaneously acquiring a plurality of base station signals.

Looking further at soft handoff, mobile station 102 searches for currently receivable pilot channels to detect a currently accessible CDMA channel. According to such a search, the mobile station 102 detects the pilot channels, respectively, an active set consisting of base stations with which the mobile station 102 is currently talking, and a pilot channel of sufficient strength, which is not currently talking. A candidate set of base stations, a neighbor set of neighboring base stations that do not belong to the currently active or candidate set but are likely candidates for future handoffs, and all other base stations in the system. Manage by dividing into remaining set. Thus, the active set of the mobile station 102 in the call should always include at least one base station, and the large number of base stations belonging to the active set means that many base stations have been assigned a forward traffic channel for the mobile station 102.

In order to determine the active set, the mobile station 102 periodically controls its location information and the information obtained by estimating the surrounding radio link surrounding it as a route update message according to the Route Update Protocol. Report to station 108. The control station 108 receives the route update message and then obtains a plurality of pilot information (i.e., information about the pilot channel received by the corresponding mobile station 102 from each of the surrounding base stations) from the received message, and obtains predetermined criteria, For example, it determines the base stations that can be included in the active set of the mobile station 102, i.e., the communication traffic channel can be established with the current mobile station 102, depending on whether the pilot signal is large enough. However, since the communication channel can be established only when the Revision type of the mobile station 102 currently set to the active state matches the Revision type of the base station, it is determined that the pilot signal of any base station is large enough, for example. Even if the base station's revision type is not the same as the mobile station's current revision type, the control station 108 cannot add that base station to the active set.

As the mobile station 102 moves between the base stations 106a-106j, it is possible to include in the active set of the mobile station 102 at the current location, for example, among the base stations from which a pilot signal of sufficient magnitude is detected, the revision of the current mobile station. There may be more base stations that do not (ie, support different types of revisions) than base stations that support the same type of revision. In this situation, for continuous communication, the mobile station 102 must change the type of revision it supports by switching the personality.

FIG. 2 is a diagram showing an embodiment of the personality change command unit for instructing the personality change to the mobile station shown in FIG.

The personality change command unit 110 may include a route update message receiver 202, a pilot signal analyzer 204, a base station classifier 206, a base station-specific revision storage 208, a cumulative variable calculation and storage 210, A weight storage unit 212, a change command unit 214, and an active set storage unit 216 for each mobile station. The route update message receiver 202 receives the route update message sent from the mobile station 102. The pilot signal analyzer 204 and the base station classifier 206 analyze the pilot signals for each base station included in the route update message, so that the base station to be removed from the current active set of the mobile station 102 and the new one to be added. Detect and classify base stations, and store base stations to be added again classified as having and not having the same type of revision as the current revision of the mobile station 102. The base station-specific revision storage unit 208 stores a revision type supported by each base station 106a-106j under the control of the corresponding control station 108. The cumulative variable calculation and storage unit 210 updates and stores a cumulative variable which becomes a parameter for determining whether to switch the personality of the mobile station 102 with reference to a weight stored in the weight storage unit 212 according to a predetermined algorithm. The change command unit 214 issues a personality change command to the mobile station 102 when a predetermined condition is satisfied. The active set storage unit 216 for each mobile station stores an active set for each mobile station connected to the control station 108, and includes a pilot signal analyzer 204, a base station classifier 206, and a cumulative variable calculation and storage unit. Reference is made to 210 to update the active set of each mobile station.

1 and 2, an embodiment of an algorithm performed by the personality change instruction unit 110 to change the personality of the mobile station 102 at an optimal time point will be described. The personality change instruction unit 110 allocates the cumulative variable P _n to the mobile station 102 connected to the control station 108, and sets 0 as its initial value. The personality change instruction unit 110 switches the personality of the mobile station 102 when the cumulative variable P _n of the mobile station 102 is accumulated while exceeding the threshold value in the manner described below. Specifically, the process of changing the cumulative variable is as follows.

P _new = P _curr + {(active set _curr * α _{1 to n} )}. Formula (1)

P _new = P _curr -{(active set _curr * ε _{1 ~ n} )}… Formula (2)

P _new = P _curr + β... Formula (3)

P _new = P _curr -β. Formula (4)

{But, if P _new is less than 0, set its value to 0}

At the time of cumulative variable update, if there are base stations included in the active set of the mobile station, i.e., if the mobile station is active, based on the number of revision types of base stations that are sending a pilot signal of sufficient size to be included in the active set Revision type of base stations transmitting a pilot signal of sufficient size to be newly included in the active set if the cumulative variable is updated by applying equation (1) or (2), otherwise the mobile station is inactive. The cumulative variable is updated by applying equation (3) or (4) based on the number of stars.

Where P _new is a new cumulative variable, P _curr is a previous cumulative variable, active set _curr is the number of base stations included in the previous active set, and α _{1 to n} and ε _{1 to n} are added to the newly active set Is a weight determined by the number of base stations sending pilot signals of sufficient magnitude, and β is a predetermined value added to the cumulative variable when there are no base stations included in the active set, i.e., when the state of the mobile station is inactive. to be. n is the maximum number of base stations that can be included in the active set depending on the system. For example, assuming that n is 6 and α _{1 to n} are {a, b, c, d, e, f}, if the number of base stations in the active set is 3, α ₃ is c, likewise n is 6 and ε _{1 ˜n} is {g, h, i. Assuming j, k, l}, ε ₅ is k if the number of base stations in the active set is 5.

First, when the mobile station 102 is in an active state, the route update message receiver 202 of the personality change command unit 110 receives a route update message from the mobile station 102. The pilot signal analyzer 204 detects base stations that are, for example, sending pilot signals of sufficient magnitude, which may be included in the active set of the mobile station 102 by the information contained in the received route update message. Then, the base station classifier 206 refers to the active set storage unit 216 for each mobile station, excluding base stations included in the current active set among the detected base stations, among the base stations that are newly added to the active set. The number of base stations with different revision types from the current mobile station 102 is determined. As described above, the base station-specific revision storage unit 208 of the personality change command unit 110 stores a revision type supported by each base station 106a-106j under the control of the control station 108. The base station classifier 206 may refer to the base station-specific revision storage 208 to determine whether the revision type of each base station is the same as that of the current mobile station 102. The cumulative variable calculation and storage unit 210 retrieves the weight assigned to the determined number from the weight storage unit 212 and updates the value of P _new according to equation (1).

Then, the base station classifier 206 again refers to the base station-specific revision storage unit 208 to determine whether there is a base station having the same revision as the current mobile station 102 among the base stations which are newly added to the active set. Determine. If such a base station exists, the cumulative variable calculation and storage unit 210 retrieves the weights assigned to the number from the weight storage unit 212 and updates the value of P _new according to equation (2). The change command unit 214 then compares the updated value of P _new with a threshold. If the value of P _new exceeds the threshold, at that point the change command unit 214 sends a personality change command to the mobile station 102, causing the mobile station 102 to switch the current personality and revision. Change the type. If such personality switching is not performed, the active set storage unit 216 for each mobile station sets active base stations whose Revision type is the same as the Revision type of the current mobile station 102 among the base stations required to be newly added by the route update message. In addition, the base station, which was previously included in the active set but was determined to be excluded from the active set by the root update message, is removed from the active set. If the personality switch is made, the active set storage unit 216 for each mobile station removes all existing active sets for the mobile station 102, and among the base stations for which a new addition is required by the route update message, the revision type of the mobile station 102 is determined. Adds base stations different from the previous revision type to the active set.

Referring back to FIG. 1, the calculation of the cumulative variable described above will be described as a specific example. It should be noted that the following description is only one embodiment and the present invention is not limited thereto.

Initially, mobile station 102 is located in cell 104a of base station 106a, the initial value of P _new is 10, and assume that Revision type of mobile station 102 is Revision A. It is assumed at this point that the active set of mobile stations 102 includes base stations 106a, 106b, 106j, and the base stations with pilot signals that may be added in accordance with the route update message are base stations 106i, 106c. Further, assume that α _{1 to n} are {10, 6, 3, 1, -1, -1} and the weight ε _{1 to n} is {1, 1, 2, 4, 4, 4}, and the threshold is 20. Assume The weight set is such that the smaller the number of base stations included in the active set, the higher the possibility of personality switching of the mobile station 102, and conversely, the higher the number of base stations included in the active set, the lower the possibility of personality switching of the mobile station 102. Various settings can be made according to the designer's design. Since the base stations 106i and 106c both have the same type as the current revision type of the mobile station 102, P _new becomes = 10-(3 * 2) = 4 according to equation (2). Since the value 4 of the updated P _new is smaller than the threshold 20, no personality switching of the mobile station is made, and the base stations 106i and 106c are added to the active set.

Next, the mobile station 102 moves to the cell 104c of the base station 106c. At this point, the active set of mobile stations 102 includes base stations 106a, 106b, 106c, 106i, and 106j, and the base station with pilot signals that can be added in accordance with the newly received route update message is the base station 106e. Assume that Since the base station 106e has a different type from the current revision type of the mobile station 102, according to equation (1), P _new becomes a value less than 0 by 4 + (5 * (-1)), so the updated P _new is 0. Since the value 0 of the updated P _new is smaller than the threshold 20, the personality switching of the mobile station 102 is not made. It can also be assumed that the route update message determines that the base stations 106a, 106b, 106j do not have a pilot signal of sufficient magnitude, in which case the base stations 106a, 106b, 106j are removed from the active set.

Next, the mobile station 102 moves to the cell 104e of the base station 106e. It is assumed at this point that the active set of mobile station 102 includes base stations 106i and 106c, and the base station with pilot signals that can be added in accordance with the route update message is base station 106d. Since the base station 106d has a type different from the current revision type of the mobile station 102, P _new becomes 12 by 0 + (2 * 6) according to equation (1). Since the updated value of P _new 12 is smaller than the threshold, the personality switching of the mobile station 102 is not made. It can also be assumed that the route update message determines that the base station 106i does not have a pilot signal of sufficient size, in which case the base station 106i is removed from the active set.

Next, mobile station 102 moves to cell 104f of base station 106f. It is assumed at this point that the active set of mobile station 102 includes base station 106c, and the base stations with pilot signals that can be added in accordance with the route update message are base stations 106d and 106f. Since the base stations 106d and 106f have a different type from the current revision type of the mobile station 102, P _new becomes 12 + (1 * 10) = 22 according to equation (1). Since the updated value of P _new 22 is larger than the threshold 20, the personality switching of the mobile station is performed at this point. Since the Revision type of the mobile station 102 has changed, the existing base station 106c present in the active set is removed and the base stations 106d and 106f are newly added to the active set.

3 is a flowchart illustrating a method of changing an active set and changing a personality at an appropriate point in time according to the movement of the mobile station, according to an embodiment of the present invention.

First, one cumulative variable is assigned to each mobile station and its value is set to 0 (302). The control station receives a route update message from the mobile station (304). The control station checks the information on the pilot channels from the received message. The route update message may include information about a predetermined number of pilot channels determined by the system design, for example, the predetermined number may be 16.

The control station uses, from the value obtained in the route update message, base stations for pilot channels that are included in the active set of the current mobile station but whose size of the newly detected pilot signal does not have a size that can be included in the active set, that is, the base station to be removed. And base stations on pilot channels that are not currently included in the active set but have pilot signal magnitudes that may be included in the active set, that is, base stations to be added (306). The maximum number of base stations that can be included in the active set may be determined according to the system design, for example, may be six. The control station searches the configuration data to find the revision type of each base station identified as the base stations to be added, and then, according to each of those base station revision types, a group A of a different type from the current mobile station's revision type and the same as the current mobile station's revision type. And group B of type 308.

The control station then determines the total number of base stations belonging to group A and retrieves from the database the weights assigned to that number, then multiplies the retrieved weights by the number of base stations in the current active set for that mobile station and the current cumulative variable. (310). The control station then determines the number of base stations belonging to group B and retrieves the weight assigned to that number from the database, then multiplies the retrieved weight by the number of current active sets for that mobile station and subtracts from the current cumulative variable. By creating a new cumulative variable (312). The new cumulative variable is determined to be above a threshold (314), in which case the control station instructs the mobile station to change the personality (316) then removes all of the current active set and assigns each base station in group A to the active set. Add (318). The cumulative variable is reset to zero and the procedure returns to step 304. If it is determined in step 314 that the new cumulative variable is below the threshold, then the base stations determined to be removed in step 306 are removed from the active set (322) and each base station belonging to group B is added to the active set. (324). The procedure then proceeds to step 304.

According to another embodiment of the present invention, one may consider the case where the mobile station is in an idle state, i.e., there is no base station included in the active set for the mobile station. In such a case, as in the case of the above-described embodiment, the personality of the mobile station should be switched at an appropriate time while changing the cumulative variable according to the movement of the mobile station. However, in the idle state in which there is no base station in the active set, the update process of the active set is omitted as compared with the above-described embodiment. Therefore, according to the movement of the mobile station, whenever a route update message is received, when a signal of a degree that can be included in the active set is received from a base station of a different revision type from that mobile station, according to equation (3) and When a signal of a degree that can be included in the active set is received from a base station of the same revision type, the process of subtracting or adding the cumulative variable is repeated according to Equation (4). If the cumulative variable is above the threshold during the process, the personality transition is performed in the idle mobile station.

As described above, embodiments of the present invention for understanding the present invention have been described, but as will be appreciated by those skilled in the art, the present invention is not limited to the examples described herein but is not limited to the scope of the present invention. It can be variously modified, reconfigured and replaced. Therefore, it is intended that the present invention cover all modifications and variations that fall within the true spirit and scope of the present invention.

According to the present invention, when a terminal supporting both Revision 0 and A moves in an environment in which base stations supporting only one revision type coexist, the continuity of the call connection during the movement and the revision interworking between the base station and the terminal are optimized. At the point of time, the personality of the terminal can be switched.

Further, according to the present invention, the smaller the number of base stations included in the active set of the current terminal, the higher the possibility of personality switching of the mobile station, and conversely, the greater the number of base stations included in the active set, the lower the possibility of personality switching of the mobile station. It is possible to obtain the benefits of soft handoff while ensuring the revision interworking between the station and the base station.

Claims (8)

In the CDMA2000 1xEV-DO system, to determine whether a personality type of a mobile station supporting a plurality of different revisions is changed, wherein the personality of the mobile station has a plurality of types associated with each of the plurality of different revisions. A method performed in a control station having jurisdiction over a mobile station, Receiving a route update message from the mobile station; Determining, from the received route update message, a base station to be added to the active set of the mobile station and a base station to be removed from the active set, each of the base stations supporting one of the plurality of different revisions, For each of the base stations to be added, classifying each base station into one group of the same revision group and a different revision group by comparing whether the revision supported by each base station is the same as the currently set revision in the mobile station; Updating a cumulative variable based on the number of base stations belonging to the same revision group and the number of base stations belonging to the different revision group, and And determining whether to change the personality type of the mobile station based on the updated cumulative variable. The method of claim 1, And in response to receiving the personality change complete message from the mobile station, clearing the cumulative variable. The method of claim 1, And in response to determining whether to change the personality type of the mobile station, updating the active set of the mobile station. The method of claim 1, Updating the cumulative variable Multiplying the weight assigned to the number of base stations included in the different revision groups by the number of base stations belonging to the active set to add to a cumulative variable; And And multiplying the weight assigned to the number of base stations included in the same revision group by the number of base stations belonging to the active set from the cumulative variable to subtract from the cumulative variable. The method of claim 1, Updating the cumulative variable If there is no base station included in the active set, add a predetermined value to the cumulative variable if there is a base station included in the different revision group, and if the base station included in the same revision group exists, the predetermined value Subtracting the cumulative variable from the cumulative variable. The method of claim 1, Based on the updated cumulative variable, determining whether to change the personality type of the mobile station comprises determining to change the personality type of the mobile station if the updated cumulative variable is greater than or equal to a threshold value. How to decide. The method of claim 3, Depending on whether the mobile station has changed its personality, updating the active set of the mobile station may include Replacing the active set with base stations belonging to the different revision groups when it is determined to change the personality type of the mobile station; And Removing the base stations determined to be the base station to be removed from the active set and adding base stations belonging to the same revision group to the active set if the mobile station determines not to change the personality type. How to decide. The method of claim 4, wherein The weight assigned to the number of base stations included in the different revision groups and the weight assigned to the number of base stations included in the same revision group are lower in the updated cumulative variable as the number of base stations included in the active set increases. And the smaller the number of base stations included in the set, the higher the updated cumulative variable is.

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