JP4579210B2 - Location management method, location management device, and wireless terminal - Google Patents

Description

  The present invention relates to a location management method, a location management device, a radio base station, and a radio terminal in a radio network system.

First, the paging area method will be described. Therefore, a plurality of wireless base stations are arranged, these wireless base stations communicate with wireless terminals wirelessly, and mediate communication between the wireless terminal and the destination terminal through a wired network (hereinafter also referred to as “NW”). Assume mobile communication.
At this time, in order to call a wireless terminal from a device on the wired NW and start communication, it is necessary to know which wireless base station area the wireless terminal is in. For this reason, when a wireless terminal moves to an area of a certain wireless base station, the position of the wireless terminal is notified by performing position registration with respect to a device on the wired NW, and the call from the NW is performed at the time of position registration. This must be done for registered radio base stations. However, if location registration is performed for each radio base station area, control traffic for location registration increases. Therefore, location registration is performed in units of paging areas (hereinafter referred to as “PA”) in which several radio base stations are bundled. The method of making a call is common. By optimizing the size of this PA, the location registration control traffic and the call control traffic can be minimized.
V. Wong and V. Leung, “Location Management for Next-Generation Personal Communications Networks”, IEEE Network (IEEE Network), Vol. 14, no. 5, pp. 18-24, 2000

In the paging area method, if the movement frequency and communication frequency of the wireless terminal are defined, a PA size that minimizes the control traffic can be derived. However, the conventional paging area method is based on the premise that the movement frequency and communication frequency of mobile radio terminals do not vary greatly from one radio terminal to another, and the size of PA is changed from one radio terminal to another or from time to time. It is not.
However, for example, when there are a large number of small ubiquitous wireless sensor terminals mainly in logistics, home appliances, etc., the frequency of movement varies from fixed to in-vehicle, and the communication frequency varies from every second to once a year. There can be a situation where things are mixed. In such an environment where ubiquitous wireless terminals having significantly different frequencies of movement and communication are mixed, the movement frequency and the communication frequency are different depending on the wireless terminal, or the PA size is uniformly changed over the entire NW. Therefore, the overall control traffic cannot be minimized. Therefore, location registration and control traffic for calling a wireless terminal from the network can be reduced by a method such as setting a paging area according to the characteristics of the wireless terminal, and the accommodation efficiency of the wireless terminal can be increased.

  The present invention has been made in view of such circumstances, and its object is to provide a location management method, a location management device, and a radio base station capable of setting a paging area having a size corresponding to the characteristics of the radio terminal. And providing a wireless terminal.

  In order to solve the above problems, the present invention provides a location management method used in a radio network system for managing the location of a radio terminal in units of paging areas in which one or more radio areas of a radio base station are bundled. In the apparatus, the storage means stores information on a plurality of paging areas having different sizes to which the radio area of each radio base station belongs, and the location management means stores the information on the paging area where each radio terminal is located. It is a location management method characterized by writing to the means.

  Further, in the location management method, the location management means obtains information on a pattern selected for each of the wireless terminals from a plurality of patterns that divide an area in which wireless communication is possible into a paging area. It writes to a memory | storage means, It is characterized by the above-mentioned.

  In the location management method, the location management unit selects one of the plurality of patterns based on the communication frequency or the movement frequency of the wireless terminal.

  The position management method is characterized in that the position management means dynamically reselects the pattern based on a history of communication frequency or movement frequency of the wireless terminal.

  Further, in the location management method, in the location management device, the call instruction unit reads out information on the paging area where the radio terminal to be called is located from the storage unit, and the radio of the radio area belonging to the paging area A call instruction of the call target wireless terminal is output to a base station.

  Further, the present invention is a position management apparatus in a wireless network system that manages the position of a wireless terminal in a paging area unit in which one or more wireless areas of a wireless base station are bundled, to which the wireless area of each wireless base station belongs. A position management device comprising: storage means for storing information on a plurality of paging areas having different sizes; and position management means for writing information on the paging area where each wireless terminal is located in the storage means. is there.

  Further, in the position management device, the position management unit may obtain information on a pattern selected for each of the wireless terminals from among a plurality of patterns that divide an area where wireless communication is possible into a paging area. It writes to a memory | storage means, It is characterized by the above-mentioned.

  In the position management device, the position management unit selects one of the plurality of patterns based on a communication frequency or a movement frequency of the wireless terminal.

  In the position management apparatus, the position management unit dynamically reselects the pattern based on a history of communication frequency or movement frequency of the wireless terminal.

  Further, the location management device reads out information on a paging area where a radio terminal to be called is located from the storage unit, and transmits the radio to be called to a radio base station in a radio area belonging to the paging area. It further comprises a call instruction means for outputting a call instruction of the terminal.

  In addition, the present invention is a radio base station in a radio network system that manages the position of a radio terminal in units of paging areas in which one or more radio areas of the radio base stations are bundled, and an area in which radio communication is possible to a paging area Radio transmission means for reporting information on a plurality of patterns to be divided and a paging area to which the radio area of the own radio base station belongs in each pattern, and the radio terminal from the information broadcast by the radio transmission means A wireless reception means for receiving a location registration request in which information of a paging area selected corresponding to a pattern to which the terminal belongs is received; a transmission means for transmitting the location registration request received by the wireless reception means to the location management device; A wireless base station comprising:

  The present invention is also a wireless terminal in a wireless network system that manages the position of a wireless terminal in units of paging areas in which one or more wireless areas of a wireless base station are bundled, and stores information on a paging area in which it is located. Receiving means for receiving, from the radio base station, a plurality of patterns for dividing a radio communicable area into paging areas, and a paging area to which the radio area of the radio base station belongs in each pattern And selecting the information of the paging area corresponding to the pattern to which it belongs from the information received by the receiving means, and the information of the selected paging area stored in the storage means If the information is different from the information, the location registration request in which the information of the selected paging area is set is not sent. And location registration means for transmitting to a base station, a wireless terminal, characterized in that it comprises a.

  Further, the wireless terminal further comprises means for determining a pattern to which the wireless terminal belongs, based on communication frequency or movement frequency of the wireless terminal, or information on the history thereof. And

According to the present invention, with respect to mobile wireless terminals having a variety of movement frequencies and communication frequencies, the size of the paging area (PA) is changed for each wireless terminal, so that the location registration control traffic and the call control traffic and communication can be performed. It is possible to optimize the control traffic and communication delay of the connection processing with the wireless base station at the time. For example, a wireless terminal with high communication frequency and low mobility is set to a small PA, and a wireless terminal with low communication frequency and high mobility is set to a large PA. Can be deterred. Also, by assigning a small PA to wireless terminals that want to reduce communication delay, location registration is performed in advance, and connection processing with the wireless base station is completed, so that communication can be performed without connection processing during communication. Communication delay can be reduced.
In particular, reduction of control traffic leads to saving of radio bandwidth, and thus contributes to efficiently accommodating radio terminals in the radio base station.

Embodiments of the present invention will be described below with reference to the drawings.
In the present embodiment, an optimal paging area (hereinafter referred to as “PA”) size is allocated to the wireless terminal based on the movement frequency and communication frequency for each wireless terminal. The smaller the PA size, the more the location registration control traffic, but the paging control traffic decreases. That is, if the movement frequency increases, the location registration traffic can be reduced by increasing the PA size. If the communication frequency increases, the call traffic can be reduced by reducing the PA size.
In addition, when the location registration is performed, the connection processing sequence with the radio base station is completed, and it is assumed that the connection processing sequence can be omitted at the next communication with the same radio base station. At the time of communication with the wireless base station that has performed, control traffic accompanying connection processing does not occur, and an increase in delay during subsequent communication can be suppressed. That is, the smaller the PA size, the smaller the delay during communication.
As described above, if the movement frequency and communication frequency of the wireless terminal are known, the location registration control traffic, the control traffic for the call and the control traffic for the connection processing between the wireless base station at the time of communication, and the PA size for optimizing the communication delay Can be calculated.

  FIG. 1 is a configuration diagram of the entire wireless network system. In the figure, a wireless network system includes a wireless terminal 101, a wireless base station 105 that accommodates the wireless terminal 101 via a wireless line, a wireless base station controller 103 that controls the wireless base station 105, and a wireless terminal 101. It comprises a location management device having a location information database 104 (hereinafter referred to as “DB”) as storage means for storing the area in which it is located, and a terminal 102 that communicates with the wireless terminal 101. In the figure, there are wireless base stations 105 a and 105 b as the wireless base station 105. The radio base stations 105 a and 105 b and the radio base station control apparatus 103 are connected via the network 106, and the radio base station control apparatus 103 and the terminal 102 are connected via the network 107. Here, it is assumed that the networks 106 and 107 are wired networks.

  FIG. 2 is a diagram showing a terminal location information table held in the location information DB 104. In the figure, in the terminal location information table, for each terminal ID that is information for identifying a wireless terminal, a PA-ID (located PA-ID) that specifies the PA where the wireless terminal is located, Information on the group number (PA group number) of the belonging PA, the communication frequency and the movement frequency of the wireless terminal is stored. Note that the PA group number is a number that identifies a pattern for dividing an area in which wireless communication is possible into PAs.

  FIG. 3 is a paging area information table held in the position information DB 104. The paging area information table describes which radio base stations 105 each PA-ID bundles together to form a PA. In the figure, the paging area information table is a wireless base that identifies the serving PA-ID, the group number of the PA group to which the serving PA-ID belongs, and the wireless base station 105 belonging to the serving PA-ID. Information on the station ID is stored. Here, group number 1 is a pattern in which one PA is composed of areas of one radio base station, and group number 2 is a pattern in which one PA is composed of areas of two radio base stations. Group number 3 is a pattern in which one PA is composed of areas of three radio base stations.

  FIG. 4 shows an actual area from the information in the paging area information table described in FIG. In the figure, the area of the radio base station ID0001 at the upper left belongs to three areas of PA-ID0001, 0003, and 0006. The PA of group ID PA-ID0001 consists of the radio areas of radio base stations 105 of radio base stations ID0001, 0002, and 0003. The PA of group ID PA-ID0003 of group ID 2 is a radio base station. The PA-ID0006 PA having a group number of 1 is composed of the radio areas of the radio base stations 105 of ID0001 and 0004, and the radio area of the radio base station 105 of the radio base station ID0001.

  FIG. 5 is a diagram illustrating area information periodically notified from the radio base station 105. As shown in the figure, the radio base station 105 periodically notifies the PA-ID to which the radio base station belongs and the group number to which the PA-ID belongs as area information. The figure shows area information broadcast from the radio base station 105, and is a set of the area PA-ID0001 and group number 3, the area PA-ID0003 and group number 2, and the area PA-ID0006 and group number 1. Is informed.

  FIG. 6 is a diagram illustrating information held by the wireless terminal 101. As shown in the figure, the wireless terminal 101 stores its own terminal ID, a PA-ID in which it is located (a visited PA-ID), and a group number to which it belongs.

  FIG. 7 is a diagram showing a sequence for changing the group number. The radio base station control apparatus 103 transmits a terminal information request in which the group ID change target terminal ID is set to the position information DB 104 (step S11). The position information DB 104 reads information on the communication frequency and movement frequency of the wireless terminal specified by the terminal ID from the terminal position information table, and returns a terminal information response in which the read communication frequency and movement frequency are set (step S12). . The radio base station controller 103 calculates the optimum PA size of the radio terminal based on the communication frequency and movement frequency information set in the received terminal information response, and configures the PA of that size. Is determined as a new group number (step S13). Thereafter, a group number setting request in which the newly determined group number and the terminal ID of the wireless terminal whose group number is to be notified is set is transmitted to the wireless base station 105 (step S14), and the wireless base station 105 receives it. The group number change request is notified to the wireless terminal 101 specified by the terminal ID set in the group number change request (step S15). The wireless terminal 101 changes the group number in the stored information stored therein to the group number set in the received group number setting request (step S16). Also, the radio base station control apparatus 103 writes a new group number in the terminal location information table held in the location information DB 104. In this way, the size (group number) of the paging area can be dynamically changed during service from the communication history of the wireless terminal 101. Further, the group number may be fixedly set at the time of SO (service order) by using known information about the frequency of movement of the wireless terminal 101 and the frequency of communication.

  FIG. 8 is a diagram showing a location registration sequence. The radio base station 105 periodically notifies the PA-ID of the PA to which the own radio base station belongs as area information together with the group number of the PA (step S21). The wireless terminal 101 reads the PA-ID corresponding to the group number to which the own wireless terminal belongs from the notified information, and compares it with the PA-ID in the stored information stored in the own wireless terminal. As a result of the comparison, if the values are the same, the process ends. If the values are different, the information on the in-service PA-ID of the own wireless terminal is changed to the PA-ID corresponding to the group number of the own wireless terminal included in the notified information. Then, it transmits a location registration request in which its own terminal ID and a new in-service PA-ID are set to the radio base station 105. At this time, since connection processing is not performed between the radio base station 105 and the radio terminal 101, the radio terminal 101 transmits a link establishment request (step S23), and the radio base station 105 transmits a link assignment. Then, a connection relationship is established between the radio base station 105 and the radio terminal 101, and a connection state is established (step S24). Upon receiving the location registration request (step S25), the radio base station 105 adds its own radio base station ID and transfers it to the radio base station control apparatus 103 (step S26). The radio base station control apparatus 103 transfers a location registration request to the location information DB 104 (step S27). Based on the received information, the location information DB 104 updates the information on the visited PA-ID, the visited radio base station ID, and the movement frequency of the corresponding wireless terminal 101 in the terminal location information table (step S28).

  FIG. 9 is a diagram illustrating a sequence for calling the wireless terminal 101. When the wireless terminal 101 is called by a data transmission request from the terminal 102, the wireless base station control device 103 sends a call request in which the identification information (terminal ID) of the called wireless terminal 101 is set from the terminal 102. Receive. The radio base station control apparatus 103 receives the terminal ID of the radio terminal 101 to be called, the located PA-ID in the location registration request received from the radio terminal 101 specified by this terminal ID in step S26 in FIG. A position search request in which the base station ID is set is transmitted to the position information DB 104 and inquired to request the position information of the wireless terminal 101 (wireless base station ID belonging to the area PA) (step S31). The location information DB 104 reads out the located PA-ID and PA group number from the terminal location information table using the terminal ID read out from the received location search request as a key, and further reads out the located PA-ID and PA group number. The radio base station ID is read from the paging area information table as a key. The location information DB 104 returns the received terminal ID and a location search response in which the read radio base station ID is set to the radio base station control device 103 (step S32).

  The radio base station control apparatus 103 transmits a call request in which the callee terminal ID is set to all the radio base stations 105 corresponding to the respective radio base station IDs in the received position search response (steps S33 and S34). Each radio base station 105 that has received the call request broadcasts the call request in which the terminal ID set in the call request is set, and calls the radio terminal 101 (step S35). The wireless terminal 101 that has received the call request in which its terminal ID is set returns a call response in which the terminal ID is set. At this time, if the wireless terminal 101 and the wireless base station 105 are not connected, the wireless terminal 101 transmits a link connection to the wireless base station 105 (step S36), and the wireless base station 105 that has received the link connection allocates a link. By performing and notifying the wireless terminal 101 (step S37), a link is established between the wireless terminal 101 and the wireless base station 105, and a call response is returned (step S38). The radio base station 105 transfers the received call response to the radio base station control apparatus 103. As a result, the radio base station control apparatus 103 establishes a communication path between the terminal 102 and the radio terminal 101. Also, the radio base station control apparatus 103 updates the communication frequency information in the terminal position information table held in the position information DB 104.

  Next, an example of a method for determining the PA size will be described below. The radio base station control apparatus 103 determines, for the radio terminal 101, the average value of the data communication delay to be below a certain level, and the optimum PA of the optimal PA so that the control traffic is minimized based on the frequency of movement and communication. The size is calculated based on Equation (1) and Equation (1) ′, and the PA group to which it belongs is determined. It is assumed that the leaving interval from the base station area and the communication calling interval are exponentially distributed.

  Alternatively, the control traffic accompanying the movement at that time can be obtained by the formula (2) as the sum of (location registration control traffic) + (call control traffic) + (control traffic at the time of outgoing call).

However, in the above,
Lt: Average value of data communication delay [sec. (Seconds)],
La: Delay required for connection processing [sec. ],
Ld: Data transmission / reception delay [sec. ] ,
Ps: probability that the wireless terminal is not authenticated,
Pa: PA size [number of base stations / PA],
α : Incoming call rate [1 / sec. ],
β: Transmission rate [1 / sec. ],
μ: Movement frequency [1 / sec. ],
Ct: Control traffic [byte / sec. ],
Lm: connection processing traffic [bytes / time],
Lb: Call traffic [bytes / time],
It is.

In addition to the method of explicitly storing the group number at the start of service in the wireless terminal 101 and the location information DB 104 as described above, the group number is added to the structured terminal identifier (terminal ID, etc.) in the PA hierarchy number ( Group number). For example, a value obtained by dividing the terminal identifier by the total number of group numbers can be used as the group number.
When the group identifier is included in the terminal identifier, there is a method of changing the group number dynamically, such as a method of properly using the terminal identifier according to the group number.

  When the group number is dynamically changed, the group number is determined by the radio terminal 101 in addition to the method performed by the radio base station 105 described above. In this case, the wireless terminal 101 calculates an optimal PA size based on its own communication speed, movement frequency, and history information held therein, and determines a group number. When the group number is dynamically changed led by the wireless terminal, the notification of the group number change to the position information DB 104 can be realized by a method of using a plurality of terminal IDs transmitted by a position registration request in the position registration sequence. The wireless terminal 101 and the position information DB 104 are set in advance so as to hold a plurality of sets of terminal ID, group number, and PA size information of the group at the time of SO. Each time the wireless terminal 101 changes the group number, the wireless terminal 101 transmits a location registration request to the wireless base station 105 using the terminal ID corresponding to the group number. The position information DB 104 identifies a wireless terminal from the received terminal ID requesting position registration, and changes the group number in the terminal position information table if it is different from the terminal ID used previously.

  The wireless terminal 101, the terminal 102, the wireless base station control device 103, the location information DB 104, and the wireless base station 105 described above have a computer system therein. The operation processes of the wireless terminal 101, the terminal 102, the wireless base station controller 103, the position information DB 104, and the wireless base station 105 are stored in a computer-readable recording medium in the form of a program. The above processing is performed by the computer system reading and executing this program. The computer system here includes an OS and hardware such as peripheral devices.

Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, and a CD-ROM, and a storage device such as a hard disk built in the computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case, and a program that holds a program for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

1 is a configuration diagram of an entire wireless network system according to an embodiment of the present invention. It is a figure which shows the terminal position information table which position information DB by the embodiment hold | maintains. It is a figure which shows the paging area information table which position information DB by the embodiment hold | maintains. It is a block diagram of the paging area by the same embodiment. It is a figure which shows the alerting | reporting information of the wireless base station by the embodiment. It is a figure which shows the holding | maintenance information of the radio | wireless terminal by the embodiment. It is a figure which shows the group number change sequence by the embodiment. It is a figure which shows the position registration sequence by the embodiment. It is a figure which shows the calling sequence by the embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 ... Wireless terminal 102 ... Terminal 103 ... Wireless base station control apparatus 104 ... Location information DB
105, 105a, 105b ... wireless base station 106, 107 ... network

Claims (5)

A location management method executed by a location management apparatus including a storage unit and a location management unit in a radio network system that manages the location of a radio terminal in units of paging areas in which one or more radio areas of a radio base station are bundled. ,
Said storage means is a pattern for dividing a region capable of wireless communication to a plurality of paging areas, between the pattern, the size of the paging area by changing the number of radio area of the radio base stations belonging to each paging area a plurality of patterns set in advance to be different, and the paging area information table for storing in association with the ID of the radio base stations belonging to the identifier and the paging area of the pattern ID and the paging area of the paging area belongs, the radio A terminal location information table that stores the ID of the terminal, the ID of the paging area where the wireless terminal is located, the identifier of the pattern to which the wireless terminal belongs, and the communication frequency and movement frequency history of the wireless terminal in association with each other. Hold and
The location management means, wherein for each wireless terminal, using the history of the communication frequency and the movement frequency of the wireless terminal stored in the terminal location information table in which the storage means holds, the following equation (1), the formula (1 ) ′ And the control calculated by the following equation (2) after determining that the average value Lt of the data communication delay calculated by the following equation (1) is not more than a predetermined value based on the equation (2). The number Pa of radio base stations belonging to each paging area is calculated so as to minimize the traffic Ct, the pattern to which the paging area belongs is determined, the identifier of the determined pattern, the ID of the paging area where the radio terminal is located, Is written in the terminal location information table held by the storage means,
A location management method characterized by that.

However, in the above,
Lt: Average value of data communication delay [sec. (Seconds)],
La: Delay required for connection processing [sec. ],
Ld: Data transmission / reception delay [sec. ],
Ps: probability that the wireless terminal is not authenticated,
Pa: Number of radio base stations belonging to each paging area,
α: Incoming rate of communication frequency [1 / sec. ],
β: Transmission rate [1 / sec. ],
μ: Movement frequency [1 / sec. ],
Ct: Control traffic [byte / sec. ],
Lm: connection processing traffic [bytes / time],
Lb: Call traffic [bytes / time],
It is. The location management device further comprises a call instruction means ;
The call indicating means reads from the terminal location information table invoked the wireless terminal held by said storing means the ID of the paging area to be visited, all the radio base stations belonging to the paging area of the read-out ID The ID of the mobile station is read from the paging area information table held by the storage means, and a call instruction of the call target radio terminal is output to the radio base station of the read ID. 2. The location management method according to 1. A position management device in a wireless network system for managing the position of a wireless terminal in a paging area unit in which one or more wireless areas of a wireless base station are bundled,
A pattern for dividing a region capable of wireless communication to a plurality of paging areas, between the pattern, defined size are differently pre paging area by changing the number of radio area of the radio base stations belonging to each paging area In addition, for a plurality of patterns, a paging area information table for storing a paging area ID, an identifier of the pattern to which the paging area belongs, and an ID of a radio base station belonging to the paging area in association with each other; Storage means for holding a paging area ID in which the wireless terminal is located, an identifier of the pattern to which the wireless terminal belongs, and a terminal location information table that stores the communication frequency and movement frequency history of the wireless terminal in association with each other. ,
For each of the wireless terminals, using the communication frequency and movement frequency history of the wireless terminal stored in the terminal location information table held by the storage unit, the following expressions (1), (1) ′, and (2 ), The average value Lt of the data communication delay calculated by the following formula (1) is determined to be equal to or less than a predetermined value, and the control traffic Ct calculated by the following formula (2) is minimized. as described above, the radio base station number Pa belonging to each paging area is calculated, to determine the belonging the pattern, the identifier of the pattern the determined, and the ID of the paging area in which the radio terminal is located, said memory means Position management means for writing in the terminal position information table to be held ;
A location management device comprising:

However, in the above,
Lt: Average value of data communication delay [sec. (Seconds)],
La: Delay required for connection processing [sec. ],
Ld: Data transmission / reception delay [sec. ],
Ps: probability that the wireless terminal is not authenticated,
Pa: Number of radio base stations belonging to each paging area,
α: Incoming rate of communication frequency [1 / sec. ],
β: Transmission rate [1 / sec. ],
μ: Movement frequency [1 / sec. ],
Ct: Control traffic [byte / sec. ],
Lm: connection processing traffic [bytes / time],
Lb: Call traffic [bytes / time],
It is. The ID of the paging area where the radio terminal to be called is located is read from the terminal location information table held by the storage means, and the IDs of all the radio base stations belonging to the paging area of the read ID are stored in the storage means. A call instruction unit that reads out from the paging area information table held by the mobile station and outputs a call instruction of the call target wireless terminal to the radio base station of the read ID .
The position management device according to claim 3 . A wireless terminal in a wireless network system that manages a position of a wireless terminal in a paging area unit in which one or more wireless areas of a wireless base station are bundled,
It is a pattern that divides the area where wireless communication is possible into a plurality of paging areas. Between the patterns, the number of radio areas of the radio base stations belonging to each paging area is changed so that the area of the paging area is different. Storage means for storing the identifier of the pattern to which the pattern belongs, and the ID of the paging area in which the station is located,
From the radio base station, an identifier of said plurality of patterns, and receiving means for receiving information indicating a correspondence between the ID of the paging area in which the wireless area of the wireless base station belongs in each pattern,
From information received by the receiving unit, to select the ID of the paging area corresponding to the identifier of the pattern itself is stored in said memory means belongs, the ID of the paging area for which the selection is stored in said storage means is different from the ID of the paging area to be visited itself has, as well as change the ID of the paging areas stored in said storage means to the ID of the paging area for which the selected, the ID of the paging area for which the selected A location registration means for transmitting the set location registration request to the radio base station;
The average value Lt of data communication delays calculated by the following formula (1) based on the following formula (1), formula (1) ′ and formula (2) using the history of communication frequency and movement frequency of the wireless terminal. Is determined to be equal to or less than a predetermined value, and the number Pa of radio base stations belonging to each paging area is calculated so that the control traffic Ct calculated by the following equation (2) is minimized. Means for determining the pattern;
A wireless terminal comprising:

However, in the above,
Lt: Average value of data communication delay [sec. (Seconds)],
La: Delay required for connection processing [sec. ],
Ld: Data transmission / reception delay [sec. ],
Ps: probability that the wireless terminal is not authenticated,
Pa: Number of radio base stations belonging to each paging area,
α: Incoming rate of communication frequency [1 / sec. ],
β: Transmission rate [1 / sec. ],
μ: Movement frequency [1 / sec. ],
Ct: Control traffic [byte / sec. ],
Lm: connection processing traffic [bytes / time],
Lb: Call traffic [bytes / time],
It is.

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