JP2000138962A - Radio communication system, radio communication method and storage medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent a call loss at the time of call transmission by automatically selecting an optimum maximum transmission rate, to relieve the operator from a troublesome operation and to prevent increase in communication costs caused by an inadequate maximum transmission rate. SOLUTION: In the case that a 1st radio communication device makes a call to a mobile 2nd radio communication device, the 1st radio communication device refers to a database that stores the positional information of the 2nd radio communication device including the past information and decides a maximum transmission rate based on the acquired positional information (S404-S407, S501-S504). The maximum transmission rate for radio communication between the 1st radio communication device and a radio base station to which the 1st radio communication device belongs is set to the decided maximum transmission rate.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless communication system, a wireless communication method, and a storage medium, and more particularly, to a wireless communication system in which a plurality of wireless service zones are formed by a plurality of wireless base stations connected to a wired communication network. A wireless communication system in which at least one movable wireless communication device is located in a plurality of wireless service zones, and a maximum transmission speed at which communication is possible on a wireless line is selected from a plurality of values and set;
The present invention relates to a wireless communication method applied to the wireless communication system and a storage medium storing a program for executing the wireless communication method.

[0002]

2. Description of the Related Art In recent years, personalization of wireless communication devices has progressed, and it is not uncommon for individuals to own mobile phones and the like. In addition, the wireless system is mainly an analog system, but has recently been shifted to a digital system which is excellent in speech quality and privacy.

One of the digital wireless telephone terminal services is a personal handyphone system (hereinafter, referred to as a personal handyphone system).
PHS). In this PHS call termination service, a call can be received anywhere within the area of the base station by registering the location with one of a plurality of base stations arranged at an appropriate place outdoors. In addition, these wireless communication devices having excellent portability can be used in mobile objects such as cars and trains as long as location registration with a base station is possible.

Following such PHS, mobile communication of the wideband CDMA (W-CDMA) system is being standardized as next-generation mobile communication. In the W-CDMA mobile communication, the maximum transmission speed is set in advance according to the state (moving speed or the like) of the wireless communication device. This is to cope with such a situation, because the communication line quality required for the wireless line varies depending on the state of the wireless communication device. This maximum transmission speed can be selected and changed at the start of communication. In addition, it is technically possible to select and change the communication during communication in the same manner as at the start.

[0005] The communication fee system in the wireless communication apparatus in which the maximum usable transmission speed changes as described above is a fee system according to the communication speed, and the higher the communication speed (the wider the bandwidth). Communication charges are set high.

[0006]

As described above, in the conventional mobile communication, the required radio channel quality changes with the state of the radio communication apparatus, for example, with the change of the moving speed. Therefore, when it is predicted that the moving speed of the wireless communication device changes and the wireless channel quality deteriorates, the maximum transmission speed is changed between the wireless communication device and the wireless base station in order to maintain normal communication, It is necessary to maintain wireless line quality.

In this case, a method of manually selecting the maximum transmission speed by the operator himself is conceivable. However, it is difficult to easily know the moving speed of the moving radio communication apparatus, and as a result, the optimum maximum transmission speed is obtained. If the speed cannot be selected, no connection is made at the time of calling and a call loss occurs.

Further, even if it is known, a complicated manual operation is required in order to select the optimum maximum transmission speed, and especially in a driving operator, the operation of the wireless communication device is distracted. Driving can be sparse,
In this case, a serious traffic accident may be caused.

Further, if communication is continued at an inappropriate maximum transmission rate on a radio line having deteriorated quality, there is a problem that it is uneconomical from the viewpoint of communication cost.

The present invention has been made in view of such a problem, and automatically selects an optimum maximum transmission speed to prevent a call loss at the time of calling and to prevent an operator from performing a complicated operation. It is an object of the present invention to provide a wireless communication system, a wireless communication method, and a storage medium which are released and prevent an increase in communication cost due to an inappropriate maximum transmission rate.

[0011]

According to the first aspect of the present invention, a plurality of wireless service zones are formed by a plurality of wireless base stations connected to a wired communication network. In a wireless communication system in which at least one movable wireless communication device is located in a plurality of wireless service zones and a maximum transmission speed at which communication is possible on a wireless line is selected and set from a plurality of values, A database for storing the position information of the mobile radio communication device including the past, and a second
Determining means for determining a maximum transmission rate based on the position information on the second wireless communication device stored in the database when transmitting to the first wireless communication device; the first wireless communication device; Setting means for setting the maximum transmission rate of wireless communication performed with the wireless base station to which the wireless communication apparatus belongs to the maximum transmission rate determined by the determination means.

According to the eleventh aspect of the present invention, a plurality of wireless service zones are formed by a plurality of wireless base stations connected to a wired communication network, and at least one mobile service zone is movable in the plurality of wireless service zones. In a wireless communication method applied to a wireless communication system in which a maximum transmission rate at which communication is possible on a wireless line is selected and set from a plurality of values. A storage step of storing the position information of the apparatus including the past, and when the first wireless communication apparatus transmits to the movable second wireless communication apparatus, the second wireless apparatus stored in the storage step A determining step of determining a maximum transmission rate based on position information on the communication device; and a wireless communication between the first wireless communication device and a wireless base station to which the first wireless communication device belongs. The maximum transmission speed of the communication, and having a setting step of setting the maximum transmission rate determined by said determining step.

Further, according to the invention described in claim 21,
A plurality of wireless service zones are formed by a plurality of wireless base stations connected to a wired communication network, and at least one movable wireless communication device is located in the plurality of wireless service zones, and is capable of communicating over a wireless line. In a computer-readable storage medium storing, as a program, a wireless communication method applied to a wireless communication system of a method in which a maximum transmission rate is selected and set from a plurality of values, the wireless communication method comprises: A storage step of storing possible wireless communication device position information including the past;
When the wireless communication device transmits to the movable second wireless communication device, a determining step of determining a maximum transmission rate based on the position information on the second wireless communication device stored in the storing step, The first wireless communication device;
Setting a maximum transmission rate of wireless communication performed with the wireless base station to which the first wireless communication apparatus belongs to the maximum transmission rate determined by the determining step.

[0014]

Embodiments of the present invention will be described below with reference to the drawings.

(First Embodiment) FIG. 1 is a block diagram showing a configuration of a wireless communication system according to a first embodiment of the present invention. This wireless communication system is a W-CDMA mobile communication system.

In FIG. 1, reference numeral 10 denotes a fixed wireless communication device constituting a wireless communication system, and reference numeral 11 denotes a portable wireless communication device constituting a wireless communication system. 12, 12a,
Reference numerals 12b and 12c denote wireless base stations that control connection between a wireless communication line and a wired communication line. In particular, 12a denotes a wireless base station that performs wireless communication with the fixed wireless communication device 10,
b and 12c are wireless base stations that perform wireless communication with the mobile wireless communication device 11 that moves. 13, 13
A wireless control device that routes a communication path between the wireless communication device and the wireless communication device. The wireless control device is connected to the wireless base stations 12 and 12a and the wireless base stations 12b and 12c by wired lines, and is connected to the existing communication network 14 by wired lines. Is done. Communication network 14
Is any one of ISDN, ATM network, LAN and the like. Reference numeral 15 denotes a position information DB (database) for registering / updating various information such as a service area of a wireless base station to which the wireless communication device 11 belongs, and 16 denotes subscriber information on the wireless communication device 11 accommodated in the system. It is a subscriber information DB (database) to be stored.

FIG. 2 is a block diagram showing the area information registration and registration of the portable radio communication device 11 in the W-CDMA mobile communication system.
It is a sequence chart regarding an update process.

After the portable radio communication device 11 is powered on,
For example, it is assumed that the mobile station belongs to the service area of the wireless base station 12b and then moves to the service area of the wireless base station 12c. In this case, the following area information update processing is started in the position information DB 15.

The portable radio communication device 11 is a radio base station 1
A position registration request message (M201) is transmitted to 2c. Upon receiving the location registration request message (M201), the wireless base station 12c transmits an authentication request message (M202) to the portable wireless communication device 11, and communicates with the subscriber information DB 16 through the portable wireless communication device. Authentication (M203) relating to whether or not 11 is a contracted wireless communication device is performed. In addition, depending on the business,
In some cases, this authentication function is provided in the carrier equipment.

On the other hand, the portable radio communication device 11 which has received the authentication request message (M202) from the radio base station 12c
Will wrap,
An authentication response message (M2
04).

The radio base station 12c has a subscriber information DB 16
Authentication between the portable wireless communication device 11 (M2
03), and upon receiving the authentication response message (M204) from the portable wireless communication device 11 after the contract is confirmed, the location registration request message (M
205).

The communication network 14, which has received the location registration request message (M205) from the radio base station 12c,
A location registration request message (M206) is transmitted to B15.

FIG. 4 is a flowchart showing a procedure of location registration / area information updating performed in the location information DB 15 when the portable radio communication device 11 is in an idle state (non-communication state).

The location information DB 15 that has received the location registration request message (M206) from the communication network 14 (S40)
1), the validity of the received signal is determined (S402). If there is an error in the reception, it is not shown in the figure, but it is determined whether the error has occurred consecutively a specified number of times. If not, the location registration request message (M206) is received again (S401). If the specified number of times has been reached, this processing is terminated.

If there is no error in reception, various kinds of information are read from the position registration request message (M206), analyzed and registered (S403). Furthermore, from among these information,
In particular, the wireless base station (cell station: CS) identifier indicating the wireless base station with which the portable wireless communication device 11 is currently communicating is extracted, and a change in the CS identifier is confirmed (S40).
4) If there is no change, the information update process ends. If the CS identifier has changed, a time interval t (for example, the current CS identifier registration time-the previous CS identifier registration time) between the times at which the CS identifier has changed is obtained (S405), and the table chart shown in FIG. 6 is referred to. .

FIG. 6 is a table chart showing the correspondence between the moving speed of the wireless communication device and the maximum selectable transmission speed. In the figure, an item 61 describes an average time interval T, an item 62 describes an estimated moving speed of the wireless communication device, and an item 63 describes a maximum communicable transmission speed corresponding to the moving speed. Referring to this table chart, a row in the item 61 corresponding to the obtained time interval t is searched, and the item 62 in the row is searched.
And the value in the item 63 (S406), thereby obtaining information on the maximum transmission speed at which communication is possible at the time of calling.
It is stored in the position information DB 15 (S407).

When the registration update of the position information on the portable radio communication device 11 is completed, the process returns to FIG.
B15 transmits a location registration acceptance message (M207) to the communication network 14.

The communication network 14, which has received the location registration acceptance message (M207) from the location information DB 15, sends a location registration acceptance message (M207) to the wireless base station 12c to which the portable wireless communication device 11 requesting location registration is connected. M20
8) is sent. The wireless base station 12c that has received the location registration acceptance message (M208) from the communication network 14 sends the location registration acceptance message (M208) to the portable wireless communication device 11.
209).

Thus, the wideband CDMA (W-CDM)
A) Portable wireless communication device 11 in mobile communication system
The processing related to location registration / area information update is completed.

FIG. 3 is a sequence chart showing a calling operation of fixed wireless communication apparatus 10.

When the maximum transmission rate used for communication is selected by the operator and a calling operation is started from the fixed wireless communication apparatus 10, the fixed wireless communication apparatus 10 transmits information on the selected maximum transmission rate. To the call setup request message (M
The information is transmitted to the wireless base station 12a as a part of the information element 301). Upon receiving the call setup message (M301), the wireless base station 12a transmits an authentication request message (M302) to the fixed-back-type wireless communication device 10, and communicates with the subscriber information DB 16 through the communication network 14.
Authentication (M303) relating to whether or not the fixed wireless communication device 10 is a contracted wireless communication device is performed. In addition,
Depending on the carrier, this authentication function may be provided in the carrier equipment.

When receiving the authentication request message (M302) from the wireless base station 12a, the fixed wireless communication device 10 returns to the wireless base station 12a if it can respond to the authentication request, and sends an authentication response message (M304) to the wireless base station 12a. )
Send The radio base station 12a stores the subscriber information DB 16
Between the fixed wireless communication device 10 (M3
03), and after the contract is confirmed, a call setting request message (M305) is transmitted to the communication network 14.
A call setting request message (M30) is sent from the radio base station 12a.
The communication network 14 receiving 5) transmits the information on the maximum transmission rate transmitted from the fixed wireless communication device 10 to the position information DB 15 as a part of the information element of the transmission rate confirmation message (M306). Position information DB 15 receiving transmission speed confirmation message (M306) from communication network 14
In order to determine whether communication at the maximum transmission rate transmitted from the fixed wireless communication device 10 is possible with the communication partner, for example, the portable wireless communication device 11, the previous position is determined. Based on the latest information on the portable wireless communication device 11 stored at the time of updating the registered area information, the available maximum transmission rate is analyzed and determined with reference to the table chart of FIG.

As a result, if the maximum transmission rate requested by the fixed wireless communication device 10 is available, the fact is notified as a part of the information element of the notification message (M307) to the communication network 14.
Send to When the transmission rate cannot be used, for example, when the transmission rate of the wireless line may be degraded unless the communication rate is lower than the requested transmission rate, the maximum transmission rate that is analyzed and determined is used. Is transmitted to the communication network 14 as a part of the information element of the notification message (M307).

The communication network 14 having received the confirmation notification message (M307) from the location information DB 15 transmits the information element of the maximum transmission rate included in the confirmation notification message (M307) to the call setup received from the fixed wireless communication device 10. The request message (M305) is copied into the information element of the maximum transmission rate, and the call setup request message (M30
8) is transmitted to the receiving-side radio base station, for example, the radio base station 12b. The receiving-side radio base station 12b that has received the call setting request message (M308) transmits an incoming call message (M309) to the portable radio communication device 11 of the called party.

The portable radio communication device 11 that has received the incoming call message (M309) returns the incoming call response message (M310) to the radio base station 12b if it can respond to the incoming call. . The radio base station 12b that has received the call response message (M310) receives the call setup request message (M30) received from the communication network 14 in advance.
8) is changed to a call setting request message (M311) and transmitted to the portable wireless communication device 11. The portable wireless communication device 11 that has received the call setup request message (M311) analyzes the information elements included in the call setup request message (M311), and if it can respond to the incoming call, calls the wireless base station 12b for call setup. The reception message (M312) is transmitted back. The radio base station 12b that has received the call setting acceptance message (M312) transmits an authentication request message (M313) to the return portable radio communication device 11, and also exchanges an authentication request message (M313) with the subscriber information DB 16 through the communication network 14. Authentication (M314) relating to whether or not the portable wireless communication device 11 is a contracted wireless communication device is performed. It should be noted that, depending on the carrier, this authentication function may be provided in the communication carrier equipment.

When the portable wireless communication device 11 receives the authentication request message (M313) from the wireless base station 12b, if it can respond to the authentication request, it returns to the wireless base station 12b and returns an authentication response message (M315). )
Send Upon receiving the authentication response message (M315), the wireless base station 12b converts the call setting reception message (M312) received from the portable wireless communication device 11 in advance into a call setting reception message (M316) and transmits it to the communication network 14. The communication network 14 is provided to the wireless base station 12a to which the fixed wireless communication device 10 that has requested the call setting is connected.
The information on the maximum transmission rate included in the call setting acceptance message (M316) is stored in the call setting acceptance message (M317).
Sent as part of the information element. The wireless base station 12a that has received the call setting request reception message (M317) from the communication network 14 transmits a call setting reception message (M318) to the fixed wireless communication device 10. Fixed wireless communication device 10 that has received the call setting acceptance message (M318)
Compares the maximum transmission speed value requested at the time of transmitting the call setting request message (M301) with the maximum transmission speed value determined by the position information DB 15. As a result, if a transmission rate different from the request is specified, if the maximum transmission rate cannot be changed, the transmission process is interrupted and the state transits to the idle state. On the other hand, if the maximum transmission rate is as required or if the maximum transmission rate can be changed, fixed wireless communication apparatus 10 waits for a response from portable wireless communication apparatus 11 and continues the transmission state.

Subsequently, the portable radio communication device 11 transmits to the radio base station 12b a call message (M319) notifying that it is ringing. Call message (M31
The wireless base station 12b that has received 9) transmits a call message (M320) to the communication network 14. The communication network 14 that has received the call message (M320) transmits the call message (M321) to the wireless base station 12a. Upon receiving the call message (M321), the radio base station 12a sends the call message (M32) to the fixed wireless communication apparatus 10.
Send 2).

When the portable radio communication device 11 receives a response from the operator by pressing a call button or the like, it transmits a response message (M323) to the radio base station 12b. Upon receiving the response message (M323), the wireless base station 12b transmits the response message (M324) to the communication network 14. The communication network 14 that has received the response message (M324) transmits the response message (M325) to the wireless base station 12a. The wireless base station 12a that has received the response message (M325) transmits a response message (M326) to the fixed wireless communication device 10.

Thereafter, the fixed wireless communication device 10 that has received the response message (M326) and the portable wireless communication device 11 that has responded transition to the communicating state (M327).

As described above, the portable radio communication device 1
The optimum maximum transmission speed is automatically selected in accordance with the moving speed of (1). Therefore, it is possible to prevent a call loss at the time of originating a call, release an operator from complicated operations, and prevent an increase in communication cost due to an inappropriate maximum transmission speed.

(Second Embodiment) Since the second embodiment has basically the same configuration as the first embodiment, the description of the second embodiment will be omitted. Divert the configuration of the form.

In the first embodiment, the location registration area information is updated when the portable wireless communication device 11 is in an empty state (non-communication state), and the maximum communication speed is selected when the fixed wireless communication device 10 makes a call. Although the negotiation regarding the determination is described, the second embodiment is configured such that the fixed wireless communication device 10 and the portable wireless communication device 11 are updated with the update processing of the location registration area information in the communication state of the portable wireless communication device 11. 2 shows negotiations between the wireless communication line and the selection / change of the maximum transmission rate.

FIG. 7 is a sequence chart showing the operation of the second embodiment.

The information updating process when the portable radio communication device 11 moves from the service area of the radio base station (1) 12b to the service area of the radio base station (2) 12c in the communication (l) state will be described below. explain. Communicating (l)
The state corresponds to the communicating state (M327) in FIG.

The portable radio communication apparatus 11 is moved from the radio base station (1) 12b currently belonging to the radio base station (2)
In order to notify the movement of the service area to the base station 12c, a location registration request message (M701) is sent to the radio base station (2).
12c. Location registration request message (M
The wireless base station (2) 12c having received (701) transmits an authentication request message (M70) to the portable wireless communication device 11.
In addition to transmitting 2), authentication (M703) is performed with the subscriber information DB 16 as to whether or not the portable wireless communication device 11 is a contracted wireless communication device. It should be noted that, depending on the carrier, this authentication function may be provided in the communication carrier equipment.

Upon receiving the authentication request message (M702) from the radio base station (2) 12c, the radio communication device 11
If it is possible to respond to the authentication request, it returns and sends an authentication response message (M7) to the radio base station (2) 12c.
04).

The radio base station (2) 12c transmits the subscriber information D
Authentication with respect to the portable wireless communication device 11 (M703) is performed with the mobile communication device B16. When the authentication response message (M704) is received from the wireless communication device 11 after the contract is confirmed, the location registration with the communication network 14 is performed. Request message (M
705). Communication network 14 that has received a location registration request message (M705) from wireless base station (2) 12c
Transmits a position registration request message (M706) to the position information DB 15.

FIG. 5 is a flowchart showing a procedure of area information update processing and communication speed control performed by the position information DB 15 when the portable radio communication device 11 is in a communication state.

The location information DB 15 that has received the location registration request message (M706) from the communication network 14 (S40)
1), the validity of the received signal is determined (S402). If there is an error in the content, it is not shown in the figure, but it is determined whether or not the error has occurred a specified number of times in succession. If it is within the specified number of times, the location registration request message (M706) is received again (S401). If the specified number of times has been reached, this processing ends. If there is no error in the reception, read and analyze various information from the location registration request message (M706),
It is registered (S403). Further, from among these pieces of information, a radio base station (cell station: CS) indicating a radio base station with which the portable radio communication device 11 is currently communicating.
The identifier is taken out and the change of the CS identifier is confirmed (S40)
4) If there is no change, the information update process ends. When the CS identifier changes, the time interval t between the times when the change occurs
(For example, the current CS identifier registration time-the previous CS identifier registration time) is obtained (S405), and the table chart shown in FIG. 6 is referred to. In this table chart, a line in the item 61 corresponding to the obtained time interval t is searched, and a value in the item 62 and a value in the item 63 in the line are searched (S406). The transmission speed information is obtained and stored in the position information DB 15 (S4
07).

When the registration update of the position information on the portable radio communication device 11 is completed, the process returns to FIG.
B15 transmits a location registration acceptance message (M707) to the communication network 14.

The communication network 14 that has received the location registration acceptance message (M707) from the location information DB 15 registers the location with the wireless base station (2) 12c to which the portable wireless communication device 11 that has requested location registration is connected. A reception message (M708) is transmitted.

The wireless base station (2) 12 c having received the location registration acceptance message (M 708) from the communication network 14 transmits a location registration acceptance message (M 709) to the portable wireless communication device 11.

Further, following the update processing of the location registration area information, as shown in FIG. 5, the location information DB 15 stores the update time interval t of the location registration area information and a predetermined time interval t '.
Is checked (S501). The update time interval t is the update time interval obtained this time, and is a predetermined time interval t ′.
Is the update time interval obtained last time. If t> t ′, it is determined that the moving speed of the portable wireless communication device 11 has decreased, and the information on the maximum communicable transmission speed stored in the position information DB 15 is transmitted to the speed change request message (M710 in FIG. 7). ) Are transmitted to the communication network 14 as a part of the information element, and the maximum transmission speed is increased (bandwidth expansion) (S504).

If t <t ′, it is determined that the moving speed of the portable radio communication device 11 has increased, and the position information DB 1
5 is transmitted to the communication network 14 as a part of the information element of the speed change request message (M710 in FIG. 7), and the maximum transmission speed is reduced (bandwidth reduction). Execute (S503). Although not shown, when t ≒ t ′, the above-described processing for changing the maximum transmission rate is not executed, and the current maximum transmission rate is maintained. Therefore, the sequence processing by the message after M710 in FIG. 7 is not executed.

In FIG. 7, upon receiving the speed change request message (M710), the communication network 14 changes the speed with respect to the wireless base station (2) 12c to which the portable wireless communication device 11 requesting the location registration is connected. Request message (M7
11) is sent. The wireless base station (2) 12c receiving the speed change request message (M711) from the communication network 14
Transmits a speed change request message (M712) to the portable wireless communication device 11.

When the portable wireless communication device 11 receives the speed change request message (M712), if communication at the maximum transmission speed indicated by the change in the speed change request message is not possible, the portable radio communication device 11 displays a reason to that effect. The information is transmitted to the wireless base station (2) 12c as a part of an information element of a change impossible message (not shown).

Thereafter, if communication can be continued, M3
The in-communication (l) state indicated by 27 is maintained. When it is determined that the communication cannot be continued, the disconnection process is performed by activating the portable wireless communication device 11 or the communication network 14, and the portable wireless communication device 11 transitions to an idle state, and the fixed wireless communication device 10 Communication with is disconnected.

On the other hand, if the maximum transmission rate can be changed, portable radio communication apparatus 11 returns a change acceptance message (M713) to radio base station (2) 12c.

When receiving the change acceptance message (M713) from the portable radio communication device 11, the radio base station (2) 12c sends the change acceptance message (M7) to the communication network 14.
14) is sent. The communication network 14 that has received the change acceptance message (M714) from the wireless base station (2) 12c is connected to the fixed wireless communication device 10 that is the communication partner of the portable wireless communication device 11 (3). A speed change request message (M715) is transmitted to 12a.
The wireless base station (3) 12 a having received the speed change request message (M 715) from the communication network 14 transmits a speed change request message (M 716) to the fixed wireless communication device 10. If the fixed wireless communication device 10 that has received the speed change request message (M716) cannot perform communication at the maximum transmission speed indicated by the change in the speed change request message, it changes information such as a reason display. The message is transmitted to the wireless base station (3) 12a as a part of an information element of a refusal message (not shown).

Thereafter, if communication can be continued, M3
The state during communication (1) indicated by 27 is maintained. If it is determined that communication cannot be continued, the fixed wireless communication device 1
0 or the activation of the communication network 14, the disconnection process is performed, the fixed wireless communication device 10 transitions to the idle state, and the communication with the portable wireless communication device 11 is disconnected.

On the other hand, if the maximum transmission rate can be changed, the fixed type radio communication device 10
A change reception message (M717) is returned to a.

Upon receiving the change acceptance message (M717) from the fixed wireless communication device 10, the wireless base station (3) 12a sends the change acceptance message (M
718). The communication network 14 that has received the change acceptance message (M718) from the wireless base station (3) 12a
The maximum transmission speed of the wireless line between the portable wireless communication device 11 and the fixed wireless communication device 10 is updated with a maximum transmission speed value (instructed by the position information DB 15) which is an information element in the change acceptance message. , The communication (2) state is continued (M719).

(Other Embodiments) In the above first and second embodiments, the communication speed can be selected from a plurality of predetermined values, and the maximum transmission speed increases as the moving speed of the wireless communication device increases. As an example of a wireless communication device with a reduced speed (transmission band), a portable wireless communication device for a wideband CDMA (W-CDMA) mobile communication system has been described, but a system using another similar communication medium (narrowband) The present invention can also be applied to a portable wireless communication apparatus such as a CDMA mobile communication system) for selecting and changing the communication speed.

In the first and second embodiments, the subscriber information DB and the location information DB constitute a part of the communication network. However, the subscriber information DB and the location information DB communicate with each other. The present invention can be similarly applied to the case where it is included as a part of the business facility.

In the second embodiment, one of the two wireless communication devices in the communication state is shown as a fixed wireless communication device. However, both of the two wireless communication devices are portable wireless communication devices. Therefore, the present invention can be similarly applied to a case where the communication speed is mutually selected and changed.

The present invention may be applied to a system constituted by a plurality of devices, or may be applied to an apparatus constituted by a single device.

A storage medium storing software program codes for realizing the functions of the above-described embodiments is supplied to a system or an apparatus, and a computer (or CPU or MPU) of the system or the apparatus stores the program in the storage medium. It goes without saying that the present invention is also achieved by reading and executing the program code thus set.

In this case, the program code itself read from the storage medium realizes the functions of the above-described embodiments, and the storage medium storing the program code constitutes the present invention.

As a storage medium for supplying the program code, for example, a floppy disk, hard disk, optical disk, magneto-optical disk, CD-ROM, CD
-R, a magnetic tape, a nonvolatile memory card, a ROM, or the like can be used.

The functions of each of the above-described embodiments are realized by executing the readout program code by the computer, and the OS or the like running on the computer is executed based on the instruction of the program code. It is needless to say that the present invention includes a case where a part or all of the actual processing is performed and the function of each embodiment described above is realized by the processing.

Further, after the program code read from the storage medium is written into a memory provided in a function expansion board inserted into the computer or a function expansion unit connected to the computer, based on the instructions of the program code, It is needless to say that the present invention includes a case where the CPU or the like provided in the function expansion board or the function expansion unit performs part or all of the actual processing, and the processing realizes the functions of the above-described embodiments. .

[0072]

As described above in detail, according to the present invention, the position information DB estimates the moving speed of a mobile communication device based on the position information from the past to the present of the mobile communication device. Automatically select the optimal maximum transmission rate and set it to the wireless line.

As a result, the operator is freed from complicated selection / change operations of the maximum transmission speed at the time of transmission. In addition, since the optimum transmission rate is selected in advance before the start of the calling procedure, the processing time due to negotiation or the like in the connection procedure is reduced, and as a result, there is no call loss.

Further, during communication, quality deterioration of the radio channel is prevented, and a stable communication state is maintained.

Further, it is possible to prevent the communication from being continued without being set to the maximum transmission speed suitable for the moving speed of the wireless communication device, and to reduce the communication cost of the communication partner as well as the wireless line of its own. You.

[Brief description of the drawings]

FIG. 1 is a block diagram illustrating a configuration of a wireless communication system according to a first embodiment of the present invention.

FIG. 2 is a sequence chart related to area information registration / update processing of a portable wireless communication device in a W-CDMA mobile communication system.

FIG. 3 is a sequence chart showing a calling operation of the fixed wireless communication device.

FIG. 4 is a flowchart showing a processing procedure of location registration / area information updating performed in the location information DB when the portable wireless communication device is in an empty state.

FIG. 5 is a flowchart showing a procedure of an area information update process and a communication speed control process performed in the position information DB in a communication state of the portable wireless communication device.

FIG. 6 is a table chart showing a correspondence relationship between a moving speed of a wireless communication device and a selectable maximum transmission speed.

FIG. 7 is a sequence chart showing an operation of the second embodiment.

[Description of Signs] 10 Fixed wireless communication device 11 Portable wireless communication device 12, 12a, 12b, 12c Wireless base station 13, 13 Wireless control device 14 Communication network 15 Location information database 16 Subscriber information database

Claims (22)

[Claims] A wireless communication zone is formed by a plurality of wireless base stations connected to a wired communication network, and at least one mobile wireless communication device is located in the plurality of wireless service zones. A wireless communication system in which the maximum communicable transmission rate is selected and set from a plurality of values in a wireless communication system, wherein: a database for storing position information of movable wireless communication devices including the past; When the wireless communication device transmits to the movable second wireless communication device, the second wireless communication device stores the second wireless communication device stored in the database.
Determining means for determining a maximum transmission rate based on position information related to the wireless communication device, wireless communication performed between the first wireless communication device and a wireless base station to which the first wireless communication device belongs. Setting means for setting a maximum transmission rate to the maximum transmission rate determined by the determination means. 2. While the first wireless communication device and the second wireless communication device are communicating with each other, based on position information about the second wireless communication device stored in the database,
Communication speed determining means for determining a maximum transmission speed; a maximum transmission speed of wireless communication performed between the first wireless communication device and a wireless base station to which the first wireless communication device belongs; 2. The wireless communication system according to claim 1, further comprising communication speed setting means for setting the maximum transmission rate determined by the medium speed determination means. 3. The detecting means, comprising: detecting means for detecting a moving speed of the second wireless communication device based on position information on the second wireless communication device stored in the database; A comparing unit that compares the detected moving speed with the moving speed at the time when the maximum transmission speed was previously determined; and, as a result of the comparison by the comparing unit, the moving speed detected by the detecting unit is the same as the previous maximum transmission speed. 3. A wireless communication apparatus according to claim 1, further comprising: a deceleration determining means for reducing the currently set maximum transmission rate when the moving speed is higher than the moving speed at the time when the moving speed is determined. system. 4. The method according to claim 1, wherein the determining unit is configured to determine whether the wireless service zone to which the second wireless communication device belongs has been changed based on the position information on the second wireless communication device stored in the database. Detection means for detecting a time interval with time, a time interval detected by the detection means, a comparison means for comparing the time interval when the maximum transmission rate was previously determined, and a result of the comparison by the comparison means, When the time interval detected by the detection unit is longer than the time interval when the maximum transmission speed was previously determined, the speed increase determination unit increases the currently set maximum transmission speed. The wireless communication system according to claim 1 or 2, wherein 5. The detecting means, comprising: detecting means for detecting a moving speed of the second wireless communication device based on position information on the second wireless communication device stored in the database; A comparing unit that compares the detected moving speed with the moving speed at the time when the maximum transmission speed was previously determined; and, as a result of the comparison by the comparing unit, the moving speed detected by the detecting unit is the same as the previous maximum transmission speed. 3. The wireless communication device according to claim 1, further comprising: speed-up determining means for increasing the currently set maximum transmission speed when the moving speed is lower than the moving speed at the time when the moving speed is determined. Communications system. 6. The method according to claim 6, wherein the determining unit is configured to determine whether the wireless service zone to which the second wireless communication device belongs has been changed based on the position information on the second wireless communication device stored in the database. Detection means for detecting a time interval with time, a time interval detected by the detection means, a comparison means for comparing the time interval when the maximum transmission rate was previously determined, and a result of the comparison by the comparison means, When the time interval detected by the detection means is smaller than the time interval when the maximum transmission rate was previously determined, the apparatus further comprises deceleration determination means for reducing the currently set maximum transmission rate. The wireless communication system according to claim 1 or 2. 7. The communication speed determining means, based on position information on the second wireless communication device stored in the database, detecting means for detecting a moving speed of the second wireless communication device; A comparing unit that compares the moving speed detected by the detecting unit with the moving speed when the maximum transmission speed was previously determined; and, as a result of the comparison by the comparing unit, the moving speed detected by the detecting unit is the last time. 3. The wireless communication system according to claim 2, further comprising deceleration determining means for decelerating the currently set maximum transmission speed when the speed is higher than the moving speed when the maximum transmission speed was determined. 8. The communication speed determining means, based on the position information on the second wireless communication device stored in the database, the last time the wireless service zone to which the second wireless communication device belongs was changed. Detecting means for detecting a time interval between the time and the current time; comparing means for comparing the time interval detected by the detecting means with the time interval when the maximum transmission speed was previously determined; and comparison by the comparing means. As a result, when the time interval detected by the detection unit is larger than the time interval when the maximum transmission speed was previously determined, the speed increase determination unit increases the currently set maximum transmission speed. The wireless communication system according to claim 2, wherein: 9. The communication speed determining means, based on position information on the second wireless communication device stored in the database, detecting means for detecting a moving speed of the second wireless communication device; A comparing unit that compares the moving speed detected by the detecting unit with the moving speed when the maximum transmission speed was previously determined; and, as a result of the comparison by the comparing unit, the moving speed detected by the detecting unit is the last time. 3. The wireless communication system according to claim 2, further comprising speed-up determining means for increasing the currently set maximum transmission speed when the moving speed is lower than the moving speed when the maximum transmission speed was determined. . 10. The communication speed determining means, based on the position information on the second wireless communication device stored in the database, the last time the wireless service zone to which the second wireless communication device belongs was changed. Detecting means for detecting a time interval between the time and the current time; comparing means for comparing the time interval detected by the detecting means with the time interval when the maximum transmission speed was previously determined; and comparison by the comparing means. As a result, when the time interval detected by the detection unit is smaller than the time interval when the maximum transmission speed was previously determined, the transmission unit has a deceleration determination unit that reduces the currently set maximum transmission speed. The wireless communication system according to claim 2, wherein: 11. A plurality of wireless service zones are formed by a plurality of wireless base stations connected to a wired communication network, and at least one movable wireless communication device is located in the plurality of wireless service zones. In a wireless communication method applied to a wireless communication system of a method of selecting and setting a maximum transmission speed at which communication is possible from among a plurality of values, the position information of a movable wireless communication device, including the past A storing step of storing, when the first wireless communication device transmits to the movable second wireless communication device, the second wireless device stored in the storing step;
Determining a maximum transmission rate based on position information related to the wireless communication device; and wireless communication performed between the first wireless communication device and a wireless base station to which the first wireless communication device belongs. Setting a maximum transmission rate to the maximum transmission rate determined by the determining step. 12. While the first wireless communication device and the second wireless communication device are communicating with each other, a maximum transmission rate is determined based on the position information on the second wireless communication device stored in the storing step. Determining a communication speed during communication; and determining a maximum transmission speed of wireless communication performed between the first wireless communication device and a wireless base station to which the first wireless communication device belongs, the communication speed determination step. 12. The wireless communication method according to claim 11, further comprising a communication speed setting step of setting the maximum transmission speed determined in the step (c). 13. The determining step includes: detecting a moving speed of the second wireless communication device based on the position information on the second wireless communication device stored in the storing step; A comparing step of comparing the moving speed detected in the previous step with the moving speed at the time when the maximum transmission speed was previously determined; and, as a result of the comparison in the comparing step, the moving speed detected in the detecting step is the same as the previous maximum transmission speed. 13. The wireless communication method according to claim 11, further comprising: a deceleration determining step of reducing a currently set maximum transmission speed when the moving speed is higher than the moving speed when the speed is determined. Communication method. 14. The method according to claim 1, wherein the determining step is based on the position information on the second wireless communication device stored in the storing step, and the last time when the wireless service zone to which the second wireless communication device belongs was changed. A detection step of detecting a time interval from the current time; a comparison step of comparing the time interval detected in the detection step with a time interval when the maximum transmission rate was previously determined; and a result of the comparison by the comparison step If the time interval detected in the detecting step is larger than the time interval when the maximum transmission rate was previously determined, the speed increasing step is to increase the currently set maximum transmission rate. The wireless communication method according to claim 11 or 12, wherein 15. The detecting step includes: detecting a moving speed of the second wireless communication device based on position information on the second wireless communication device stored in the storing step; A comparing step of comparing the moving speed detected in the previous step with the moving speed at the time when the maximum transmission speed was previously determined; and, as a result of the comparison in the comparing step, the moving speed detected in the detecting step is the same as the previous maximum transmission speed. 13. The speed increasing determining step of increasing the currently set maximum transmission speed when the moving speed is lower than the moving speed at the time when the speed is determined. Wireless communication method. 16. The method according to claim 1, wherein the determining step comprises: determining, based on the position information regarding the second wireless communication device stored in the storing step, a last time when the wireless service zone to which the second wireless communication device belongs was changed. A detection step of detecting a time interval from the current time; a comparison step of comparing the time interval detected in the detection step with a time interval when the maximum transmission rate was previously determined; and a result of the comparison by the comparison step If the time interval detected in the detection step is smaller than the time interval when the maximum transmission speed was previously determined, the deceleration determination step to reduce the currently set maximum transmission speed, The wireless communication method according to claim 11 or 12, wherein 17. The communication speed determining step includes: detecting a moving speed of the second wireless communication device based on position information on the second wireless communication device stored in the storing step; A comparing step of comparing the moving speed detected in the detecting step with the moving speed at the time when the maximum transmission speed was previously determined; and, as a result of the comparison in the comparing step, the moving speed detected in the detecting step is the same as the previous one. 13. The wireless communication method according to claim 12, further comprising: a deceleration determining step of decelerating the currently set maximum transmission speed when the moving speed is higher than the moving speed when the maximum transmission speed was determined. . 18. The wireless service zone to which the second wireless communication device belongs has been changed based on the position information on the second wireless communication device stored in the storing step in the communication speed determination step. A detection step of detecting a time interval between the previous time and the current time; a comparison step of comparing the time interval detected in the detection step with a time interval when the maximum transmission speed was previously determined; and As a result of the comparison, if the time interval detected in the detection step is greater than the time interval when the maximum transmission speed was previously determined, the speed increase determination step is to increase the currently set maximum transmission speed. The wireless communication method according to claim 12, wherein 19. The communication speed determining step includes a detecting step of detecting a moving speed of the second wireless communication device based on the position information on the second wireless communication device stored in the storing step; A comparing step of comparing the moving speed detected in the detecting step with the moving speed at the time when the maximum transmission speed was previously determined; and, as a result of the comparison in the comparing step, the moving speed detected in the detecting step is the same as the previous one. 13. The wireless communication method according to claim 12, further comprising the step of: increasing the currently set maximum transmission speed when the moving speed is lower than the moving speed when the maximum transmission speed was determined. Method. 20. The communication speed determination step, wherein the wireless service zone to which the second wireless communication device belongs has been changed based on the position information on the second wireless communication device stored in the storing step. A detection step of detecting a time interval between the previous time and the current time; a comparison step of comparing the time interval detected in the detection step with a time interval when the maximum transmission speed was previously determined; and As a result of the comparison, if the time interval detected in the detection step is smaller than the time interval when the maximum transmission rate was previously determined, the method includes a deceleration determination step of reducing the currently set maximum transmission rate. The wireless communication method according to claim 12, wherein: 21. A plurality of wireless service zones are formed by a plurality of wireless base stations connected to a wired communication network, and at least one movable wireless communication device is located in the plurality of wireless service zones. A computer-readable storage medium storing, as a program, a wireless communication method applied to a wireless communication system of a method of selecting and setting a maximum transmission speed at which communication is possible from among a plurality of values; A communication method comprising: storing position information of a movable wireless communication device including the past; and storing the information when the first wireless communication device transmits to a movable second wireless communication device. The second stored in
Determining a maximum transmission rate based on position information related to the wireless communication device; and wireless communication performed between the first wireless communication device and a wireless base station to which the first wireless communication device belongs. Setting a maximum transmission rate to the maximum transmission rate determined by the determining step. 22. The wireless communication method according to claim 23, wherein, while the first wireless communication device and the second wireless communication device are communicating, the position information about the second wireless communication device stored in the storing step Based on, the communication speed determination step to determine the maximum transmission rate, The first wireless communication device, the maximum transmission speed of wireless communication performed between the wireless base station to which the first wireless communication device belongs, 22. The storage medium according to claim 21, further comprising a communication speed setting step of setting the maximum transmission rate determined in said communication speed determination step.