JP2003061157A - Mobile communication system and its call transmission reception restriction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mobile communication system that can more simply restrict a speech at a desired area. SOLUTION: In the mobile communication system adopting the CDMA system, a mobile device 30 connected to a plurality of base stations 21, 22, 23 wirelessly at the same time measures a radio wave propagation time between itself and the base stations 21, 22, 23, and transmits propagation time information to a position information control section 12 via the base stations 21, 22, 23 and an exchange section 11. The position information control section 12 calculates the distance between the mobile device 30 and the base stations 21, 22, 23 on the basis of each propagation time information and obtains the position. The exchange section compares range information of a call transmission reception restriction area stored in advance in the position information control section 12 with the particularized position of the mobile device 30 and restricts call transmission reception of the mobile device 30 when the mobile device 30 exists in the call transmission reception restriction area.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication system and a call originating / terminating control method therefor, and more particularly to a code division multiple access type mobile communication system in which a plurality of base stations and mobile stations are simultaneously connected by radio and call originating / terminating thereof. Regarding regulation methods.

[0002]

2. Description of the Related Art Conventionally, mobile phones have been aimed at being able to communicate with anyone, anytime, anywhere. However, in recent years, it has become a social problem to be able to communicate anywhere. Because, a movie theater, a quiet event venue,
This is because the number of people making calls is increasing in places (areas) that are not suitable for making calls using other mobile phones. However, the conventional mobile phone system cannot regulate this call.

FIG. 20 and FIG. 21 are diagrams showing the structure of a conventional mobile phone system. In both figures, the same parts are designated by the same reference numerals. In FIG. 20, an analog method (TACS (Total Access Communic
ations System), AMPS (Advanced Mobile Phone Ser
vice) and digital methods (PDC (Personal Digi
tal Cellular), GSM (Global System for Mobile Co)
mmunication), D-AMPS, etc.
It has base stations 101 to 103 accommodated in the exchange 100 and a mobile device 104.

In FIG. 21, 101a is a base station 101.
Area 102a is the area of the base station 102, and 103a is the area of the base station 103. Also, A
The mobile station 104 existing at the point is indicated by reference numeral 104-A, the mobile station 104 existing at the point B is indicated by reference numeral 104-B, and the mobile station 104 existing at the point C is indicated by reference numeral 104.
-C.

FIG. 22 is a diagram showing a position of a mobile device and a base station with which the mobile device existing at that position communicates.
0 and parts equivalent to those in FIG. 21 are designated by the same reference numerals. 21 and 22, the area 101a of the base station 101
The mobile station 104-A existing at the point A in the base station 10
The mobile device 104-B existing at the point B in the area where the area 101a and the area 103a of the base station 103 overlap each other communicates with the base station 101 or the base station 103. In addition, the mobile device 104-C existing at the point C in the area 103a communicates with the base station 103.

Considering point B in the overlap area, the mobile station 104 existing at point B is considered.
-B is communicating with the base station 101, for example, the distance from the base station 101 to the mobile device 104-B is obtained by measuring the delay time of the wireless section, but with a plurality of base stations at a time. Since it is not possible to measure the distance, the position of the mobile device 104-B cannot be confirmed. Therefore, in the conventional mobile phone system shown in FIGS. 20 and 21, it is not possible to regulate a call in a place not suitable for a call.

Further, as a technique aiming at restricting telephone calls in a desired area, for example, Japanese Patent Laid-Open No. 10-3
There is a mobile communication system described in Japanese Patent No. 27474. FIG. 23 is a diagram for explaining the mobile communication system described in the above publication. In FIG. 23, the mobile communication system described in the above publication has a large number of radio base stations 111-1 to 111-1.
111-M is provided, and communication is performed between the mobile device 112 and the partner terminal via a wireless base station according to the location of the mobile device 112.

The regulated base station 113 establishes a regulated space for wirelessly communicating with a predetermined radio base station and with a mobile device and for regulating outgoing and incoming calls of the mobile device 112.
Calls from and to mobile terminals existing in the restricted space are restricted. That is, the wireless base stations 111-1 to 111-1
111-M, and mobile unit 1
In the wireless zone in which 12 can be located, a restriction space is set in which the incoming and outgoing calls of the mobile device 112 are restricted. Therefore, in the wireless zone formed by the wireless base stations 111-1 to 111-M, the desired area is surely located in the mobile station 112.
It will be an area where no communication service is provided.

[0009]

As described above, in the mobile communication system described in the above publication, the regulatory base station 113 is provided to regulate incoming and outgoing calls of mobile stations existing in the regulated space. Therefore, there is a problem in that a new base station for controlling outgoing / incoming call must be provided in addition to the wireless base station in a desired area where the call is to be restricted.

It is an object of the present invention to provide a mobile communication system which can more easily regulate calls in a desired area.

[0011]

A mobile communication system according to the present invention includes a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio, and a switching center accommodating the plurality of base stations. A code division multiple access mobile communication system, wherein the exchange station specifies position information of the mobile station based on a propagation time of a radio wave between the mobile station and each of the plurality of base stations. It is characterized by having a control part and restricting an outgoing call from the mobile station and an incoming call to the mobile station according to the position of the mobile station specified by the position information control part.

Further, in the mobile communication system, the position information control section holds section information of a call originating / terminating restricted area in which the outgoing and incoming calls should be regulated, and the exchange station section information of the outgoing / incoming restricted area. And the position of the mobile station are compared with each other, and the outgoing call and the incoming call are restricted according to the comparison result.

Further, in the mobile communication system,
The exchange station transmits an outgoing / incoming call prohibition signal to the mobile station in accordance with the comparison result, and the mobile station responds to the outgoing / incoming call prohibition signal to make an outgoing call from the own station and an incoming call to the own station. It is characterized by prohibiting.

Another mobile communication system according to the present invention is a code division multiple access including a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio, and an exchange station accommodating the plurality of base stations. In the mobile communication system of the above method, the exchange has a position information control unit that specifies a position of the mobile station based on a propagation time of a radio wave between the mobile station and each of the plurality of base stations. Then, the position of the mobile station specified by the position information control unit is notified to the mobile station,
The mobile station regulates outgoing calls from the own station and incoming calls to the own station according to the position of the own station notified from the exchange station.

Further, in the another mobile communication system, the position information control section holds section information of an outgoing / incoming call restricted area in which the outgoing and incoming calls should be restricted, and the exchange station is in the outgoing / incoming restricted area. Notifying the mobile station of the section information together with the position of the mobile station, the mobile station compares the section information of the outgoing / incoming call restriction area with the position of the mobile station, and makes the outgoing call and the incoming call according to the comparison result. Is regulated.

A call originating / terminating control method according to the present invention is a code division multiple access system including a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio, and an exchange station accommodating the plurality of base stations. A method for restricting outgoing / incoming calls of a mobile communication system, wherein the switching center specifies a position of the mobile station based on a propagation time of a radio wave between the mobile station and each of the plurality of base stations. The method is characterized by including a step and a restriction step of restricting an outgoing call from the mobile station and an incoming call to the mobile station according to the position of the mobile station specified by the position specifying step.

Further, in the outgoing / incoming call restricting method, the restricting step includes a comparing step of comparing the section information of the outgoing / incoming restricted area in which the outgoing and incoming calls should be restricted with the position of the mobile station. It is characterized in that the outgoing and incoming calls are restricted according to the result.

Further, in the above outgoing / incoming call restricting method, the restricting step transmits an outgoing / incoming call prohibition signal to the mobile station according to the comparison result, and the mobile station
In response to the outgoing / incoming call prohibition signal, a step of prohibiting an outgoing call from the own station and an incoming call to the own station is included.

Another call originating / terminating control method according to the present invention is a code division multiplex including a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio, and an exchange station accommodating the plurality of base stations. A call origination / termination control method for a connection-type mobile communication system, wherein the switching station specifies the position of the mobile station based on a propagation time of a radio wave between the mobile station and each of the plurality of base stations. A position specifying step, a notification step of notifying the mobile station of the position of the mobile station specified by the position specifying step, and in the mobile station, according to the position of the own station notified by the notification step, A restriction step of restricting an outgoing call from the station and an incoming call to the own station.

In the other outgoing / incoming call restricting method, the notifying step notifies the mobile station of the section information of the outgoing / incoming restriction area in which outgoing and incoming calls should be restricted, together with the position of the mobile station, and the restricting step comprises: The method further comprises a comparing step of comparing the section information of the outgoing / incoming call restriction area notified by the notifying step with the position of the mobile station, and restricting the outgoing call and the incoming call according to the comparison result.

The operation of the present invention is as follows. Based on the propagation time of the radio wave transmitted from each base station to the mobile station, or the propagation time of the radio wave transmitted from the mobile station to each base station, the location information control unit of the switching center By determining the distance, the position of the mobile station is specified. Then, if the mobile station is located within the outgoing / incoming call restriction area where outgoing / incoming calls should be restricted, the exchange station restricts outgoing / incoming calls from the mobile station. Here, the switching center sends an outgoing / incoming call prohibition signal to the mobile station in order to restrict incoming / outgoing calls of the mobile station, and the mobile station itself receiving the signal prohibits outgoing / incoming calls of its own station. May be.

Further, the switching center notifies the mobile station of the position of the mobile station specified by the position information control unit, and the mobile station itself determines whether or not to restrict outgoing / incoming calls of its own station. May be.

[0023]

BEST MODE FOR CARRYING OUT THE INVENTION First, before describing an embodiment of the present invention, general CDMA (code division multiple access)
A mobile communication system of the type will be described with reference to the drawings. FIG. 16 and FIG. 17 are diagrams showing the configuration of a general CDMA mobile communication system, in which the same parts are denoted by the same reference numerals. 18 is a diagram for explaining the operation in the mobile communication system shown in FIGS. 16 and 17, and the same parts as those in FIGS. 16 and 17 are denoted by the same reference numerals.

In FIG. 16, a general CDMA mobile communication system has an exchange station 50, base stations 51 to 53 accommodated in the exchange station 50, and a mobile station 54. In FIG. 17, 51 a is the area of the base station 51, 52 a is the area of the base station 52, and 53 a is the area of the base station 53. Further, the mobile station 54 existing at the point A is indicated by reference numeral 54-A, the mobile station 54 existing at the point B is indicated by reference numeral 54-B, and the mobile station 54 existing at the point C is indicated by reference numeral 54-. This is indicated by C. Note that FIG.
Although not shown in FIG. 6, the mobile communication system further includes a base station 55 accommodated in the switching center 50 like the base stations 51 to 53, and 55 a is an area of the base station 55.

In the CDMA mobile communication system shown in FIGS. 16 and 17, a handover system called DHO (diversity handover) is used. Set the communication channel with the cell sector. That is, the mobile device sets a plurality of cell sectors and a plurality of communication channels at the same time for communication, in other words, a plurality of base stations and the mobile device are simultaneously connected by radio to perform communication. Further, as described above, it is not limited that a plurality of base stations and a mobile device are simultaneously wirelessly connected during a call, and when the call is not in progress, for example, when the mobile device is in a standby state, the control information Also during communication, a plurality of base stations and mobile devices are simultaneously connected wirelessly (site diversity or macro diversity).

FIG. 19 is a diagram showing the position of the mobile device and the base station with which the mobile device existing at that position communicates.
6 to 18 are designated by the same reference numerals. Figure 1
7 to 19, A in the area 51a of the base station 51
The mobile device 54-A existing at the point communicates with the base station 51. In addition, the area 51a and the area 52a of the base station 52
The mobile device 54-B existing at the point B in the area where the area of the base station 53 and the area 53a of the base station 53 overlap with each other is simultaneously connected to the base stations 51, 52 and 53 by radio to perform communication. In addition, the area 52a, the area 53a, and the base station 5
The mobile station 54-C existing at the point C in the area where the area 55a of No. 5 overlaps with the base station 52, 5
3 and 55 are simultaneously connected wirelessly to communicate.

Here, the mobile unit 54-B existing at the point B
Considering particularly (see FIG. 18 in particular), the mobile unit 54
-B, as described above, uses the radio and the base stations 51, 5
2 and 53 are communicating at the same time. Mobile unit 54-B
The base stations 51, 52 and 53 communicating with the base stations 51, 52 and 5 receive the signal received from the mobile device 54-B.
3 is transmitted to the exchange 50 connected to the switch 3.

Further, each of the base stations 51, 52 and 53 wirelessly transmits the signal transmitted from the exchange station 50 to the mobile station 54-B to the mobile station 5 located at the point B.
4-B receives the signals transmitted from the base stations 51, 52 and 53. The mobile device 54-B can receive the signals from the base stations 51, 52, and 53, and can measure the delay time (propagation time) of each radio section based on the respective received signals.

That is, the mobile station 54-B has a radio wave propagation time between itself and the base station 51, a radio wave propagation time between itself and the base station 52, and a radio wave propagation time between itself and the base station 53. Can be obtained respectively. The calculation of the propagation time of the radio wave is not limited to the mobile device 54, and the base stations 51, 52 and 53 can of course calculate the propagation time.

Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are diagrams showing the configuration of a mobile communication system according to a first embodiment of the present invention, and the same parts in both figures are denoted by the same reference numerals. In FIG. 1, the mobile communication system according to the first embodiment of the present invention is
The CDMA system is adopted, and the exchange 10 and the exchange 1
Base stations 21 to 23 accommodated in 0 and mobile stations (mobile stations)
30 and 30. The exchange 10 has the base stations 21 to 23.
And a position information control unit 12 that holds information on a Z area (call origination / restriction area), which will be described later, and calculates the position of the mobile device 30.

In FIG. 2, the base station 21 is the base station 21.
Base station 2 within the range in which the radio waves transmitted by the mobile device 30 reach the mobile device 30.
It has one area 21a. Also, the base station 22
The base station 22 has an area 22a within which the radio waves transmitted from the base station 22 reach the mobile device 30, and the base station 23
Also has an area 23a of the base station 23, which is a range in which the radio waves transmitted from the base station 23 reach the mobile device 30.

The mobile station 30 receives the radio wave transmitted from the base station 21, 22 or 23 corresponding to the area 21a, 22a or 23a in which the mobile station 30 is present, and the corresponding base station 21, It is configured such that radio waves can be transmitted to 22 or 23. In addition, each base station 2
1 to 23 are configured to be able to receive the radio waves transmitted from the mobile device 30 existing in the area of the own station.

The mobile station 30 located at point B in an area (hereinafter referred to as an overlap area) in which the area 21a of the base station 21, the area 22a of the base station 22 and the area 23a of the base station 23 are overlapped, Reference numeral 30-B
The mobile device 30 existing at the Z point in a Z area (call origination / receipt restriction area) 40, which will be described later, set in the overlap area is indicated by reference numeral 30-Z.

Here, the mobile communication system according to the first embodiment of the present invention uses the DHO method similarly to the mobile communication systems shown in FIGS. 16 and 17, so that it can communicate with a plurality of base stations during a call. The mobile devices are simultaneously connected to each other by wireless and at the same time when the mobile device is not in a call, for example, when the mobile device is in a stand-by state or when communicating control information, the plurality of base stations and the mobile device are simultaneously connected by wireless. . Therefore,
The mobile device 30-B existing at the point B and the mobile device 30-Z existing at the Z point are simultaneously connected to the base station 21, the base station 22 and the base station 23 by radio to perform communication.

In the overlap area, the mobile unit 30
The Z area 40, which is an area where it is desired to restrict outgoing / incoming calls, is set, and as will be described later, with respect to the mobile device 30 existing in the Z area 40, the outgoing call from the mobile device 30 and the incoming call to the mobile device 30 are performed. Regulated. Therefore, the mobile device 30
-B exists outside the Z area 40, so communication / calling with other mobile devices is possible, but since the mobile device 30-Z exists within the Z area 40, the mobile device 30- Incoming and outgoing calls of Z will be restricted.

1 and 2, the mobile unit 30 in the overlap area is simultaneously connected to the base station 21, the base station 22 and the base station 23 by radio to perform communication. The mobile device 30, like the mobile device 54 in the mobile communication system shown in FIGS. 16 and 17, receives signals wirelessly transmitted from the base stations 21, 22 and 23 communicating with the mobile station, and The delay time (propagation time) of each wireless section can be measured based on each received signal.

Here, the mobile communication system according to the embodiment of the present invention has a mechanism for synchronizing the entire system. That is, the base stations 21, 22 existing in this system
And 23 can be synchronized at the timing level (chip level) of the spreading code. Therefore, radio waves are transmitted from the plurality of base stations 21, 22, and 23 in synchronization. Therefore, by informing the mobile device 30 in advance of the transmission timing of each base station 21, 22 and 23,
The mobile device 30 can determine how much the received radio wave is delayed, and thus can measure the delay time of the radio wave. For the method of measuring the radio wave delay time, see 3GP.
Various methods are defined in P (3rd Generation Partnership Project) (3GPP TS 25.215 v3.5.0, 3G
PP TS 25.305 v5.0.0), the method of measuring the radio wave delay time applicable to the present invention is not limited to the above-mentioned method.

The mobile unit 30 measures its own station and the base station 21.
The time delay information of the radio wave between the base station 2 and the measured time delay information of the radio wave between the own station and the base station 22 are transmitted to the base station 2.
2 and transmits the measured delay time information of the radio wave between the own station and the base station 23 to the base station 23.

The base stations 21, 22 and 23 are the exchanges 10
The signal received from the exchange unit 11 is wirelessly transmitted to the mobile device 30, and the signal received wirelessly from the mobile device 30 is converted to a wire and transmitted to the exchange unit 11. Therefore, each of the delay time information transmitted from the mobile device 30 is notified to the switching unit 11 via each of the base stations 21, 22 and 23.

The switching unit 11 of the switching center 10 includes a base station 21,
22 and 23 and communicates with the base station 2
When the delay time information transmitted from 1, 22, and 23 is received, the received delay time information is transmitted to the position information control unit 12.

The position information control unit 12 of the exchange 10 uses the received delay time information to calculate the distance from the base station 21 to the mobile station 30, the distance from the base station 22 to the mobile station 30, and the base station 23. To the mobile device 30, the distances are stored as position information of the mobile device 30. In addition, the location information control unit 12 includes base stations 21, 22 and 2
Section information of the Z area 40, which is represented as a distance from each of 3 to the boundary of the Z area 40, is registered in advance.

FIG. 3 is a diagram for explaining the section information of the Z area 40, and the same parts as those in FIG. 2 are designated by the same reference numerals. 2 and 3, the section information of the Z area 40 is the distance from the base station 21 to the point K on the boundary of the Z area 40 (hereinafter referred to as distance 21-K), the boundary of the base station 21 to the Z area 40. Distance to the upper L point (hereinafter referred to as distance 21-L), distance from the base station 22 to M point on the boundary of the Z area 40 (hereinafter referred to as distance 22-M), base station 22 to Z The distance to the N point on the boundary of the area 40 (hereinafter referred to as distance 22-N), the distance from the base station 23 to the O point on the boundary of the Z area 40 (hereinafter, distance 23-O
P) on the boundary of the Z area 40 from the base station 23)
The distance to the point (hereinafter referred to as distance 23-P) is stored in the position information control unit 12 shown in FIG.

That is, the section of the Z area 40 has a distance of 2
1-K <Z area 40 <distance 21-L, distance 22-M <
Since Z area 40 <distance 22-N and distance 23-O <Z area 40 <distance 23-P, distance 21-K <distance from base station 21 to mobile device 30 <distance 21-L, and , Distance 22-M <distance from base station 22 to mobile device 30 <distance 22-N, and distance 23-O <
If the distance from the base station 23 to the mobile device 30 <distance 23-P, it is possible to determine that the mobile device 30 is present in the Z area 40.

The Z area 40 shown in FIGS. 2 and 3 can be set arbitrarily, and a plurality of areas may be set. It is also possible to set the Z area 40 for each mobile unit 30.

In FIGS. 1 and 2, the exchange unit 11 determines that the mobile unit 30 is located within the Z area 40 based on the section information of the Z area 40 and the position information of the mobile unit 30 which are held in the position information control unit 12. The mobile device 30 is judged whether it exists or not.
Is present in the Z area 40, outgoing / incoming calls from the mobile device 30 are restricted.

That is, the exchange section 11 normally sends a call to the mobile unit 30 from a general telephone or a mobile terminal.
A call signal is transmitted to the mobile device 30 via the base stations 21, 22 and 23, but the mobile device 3 existing in the Z area 40
When there is an outgoing call to 0-Z from a general telephone, a mobile terminal, or the like, the incoming signal to the mobile device 30-Z is restricted by not sending the call signal.

When the mobile unit 30 makes a call, the exchange unit 11 normally accepts the call and performs an exchange operation so that communication can be performed between the mobile unit 30 and the call destination. When the mobile device 30-Z existing in the area 40 makes a call, by stopping accepting the call, the call from the mobile device 30-Z is restricted.

Next, the operation of the mobile communication system according to the first embodiment of the present invention will be described with reference to the drawings. Figure 4
3 is a flowchart showing the operation of the mobile device of FIGS. 1 and 2. In FIGS. 1, 2 and 4, the mobile station 30 in the overlap area is on standby, and its own station is the base station 21 or 2.
When it is recognized that it is wirelessly connected to 2 and 23,
That is, if site diversity reception is in progress (step A1, Yes), the delay time of the radio wave from each of the base stations 21, 22 and 23 is measured (step A2). Then, the mobile device 30 transmits the delay time information of the radio wave from the base station 21 to the base station 21, the delay time information of the radio wave from the base station 22 to the base station 22, and the radio wave from the base station 23. The delay time information is transmitted to the base station 23 (step A
3).

FIG. 5 is a flow chart showing the operation of each base station shown in FIGS. 1, 2 and 5, each of the base stations 21, 22 and 23, when receiving the delay time information from the mobile device 30 (step B1, Yes), transmits the received delay time information to the switching unit 11 of the switching center 10. (Step B2).

FIG. 6 is a flow chart showing the operation of the exchange section of FIG. 1, and FIG. 7 is a flow chart showing the operation of the position information control section of FIG. 1, 2, 6 and 7, the exchange section 11 receives the delay time information from each of the base stations 21, 22 and 23 (steps C1, Ye in FIG. 6).
s), the received delay time information is output to the position information control unit 12 (step C2 in FIG. 6).

The position information control unit 12 receives each delay time information from the exchange unit 11 (steps D1 and Ye in FIG. 7).
s), calculating the distance from the base station 21 to the mobile device 30, the distance from the base station 22 to the mobile device 30, and the distance from the base station 23 to the mobile device 30 based on the received delay time information, and Is stored as the position information of the mobile device 30 (step D2 in FIG. 7).

In step C3 of FIG. 6, the exchange section 11
Detects an incoming call to the mobile device 30 or an outgoing call from the mobile device 30 (step C3 in FIG. 6, Yes), the position information of the mobile device 30 and the section information of the Z area 40 held by the position information control unit 12. Is requested to the position information control unit 12 (step C4 in FIG. 6).

In step D3 of FIG. 7, when the position information control unit 12 detects a request from the exchange unit 11 for the position information of the mobile device 30 and the section information of the Z area 40 (Yes in step D3 of FIG. 7), The position information of the mobile device 30 and the section information of the Z area 40 that are held are output to the exchange unit 11 (step D4 in FIG. 7).

In step C5 of FIG. 6, the exchange section 11
Determines whether the mobile device 30 exists in the Z area 40 based on the position information of the mobile device 30 and the section information of the Z area 40 received from the position information control unit 12. When the exchange unit 11 determines that the mobile device 30 exists in the Z area 40 (step C5, Yes in FIG. 6), if the incoming call to the mobile device is detected in step C3 in FIG. The sending and receiving of the mobile device 30 is restricted by not transmitting the call signal to the mobile device 30 and by not accepting the call from the mobile device 30 if the call is detected. (Step C6 in FIG. 6).

As described above, the section in which the incoming and outgoing calls of the mobile device 30 are to be restricted is registered in the position information control section 12, and the mobile device 30 and the plurality of base stations 21, 22 and 23 are simultaneously connected by radio. By utilizing this, that is, by using the site diversity to specify the position of the mobile device 30, it is possible to give restrictions on outgoing / incoming calls to the mobile devices 30 existing in the section. This is effective when you do not want to make a mobile phone call at the event site.

Next, a mobile communication system according to a second embodiment of the present invention will be described with reference to the drawings. The basic configuration of the mobile communication system according to the second embodiment of the present invention is the same as that of the mobile communication system according to the first embodiment of the present invention. However, in the mobile communication system according to the first embodiment of the present invention, By making the switching unit 11 of the exchange 10 not send a call signal to the mobile device 30 or not accepting a call from the mobile device 30, the mobile device 30 in the Z area 40 can be called and received. Although restricted, in the mobile communication system according to the second embodiment of the present invention, the mobile unit 30 in the Z area 40 restricts outgoing / incoming calls of its own station by the control of the switching unit 11.

That is, in FIG. 1 and FIG.
0-B moves in the overlap area and Z area 4
When moving to the Z point within 0, the exchanging unit 11 moves the mobile unit 3
An outgoing / incoming call prohibition signal is transmitted to 0-Z. Then, the exchanging unit 11 uses the ordinary telephone, the mobile terminal, etc.
To the mobile station 30-Z, the base station 2
Although the call signal is transmitted via 1, 22, and 23, the mobile device 30-Z that has received the outgoing / incoming call prohibition signal prohibits the incoming call to the own station by not accepting the incoming call signal. Also, the mobile device 3 that has received the outgoing / incoming call prohibition signal
0-Z prohibits outgoing calls from its own station.

When the mobile unit 30-Z moves to the point B in the overlap area, the exchange unit 11
Transmits an outgoing / incoming call prohibition cancellation signal to mobile device 30-B. Mobile unit 30-B that received the outgoing / incoming call prohibition cancellation signal
Then, from the ordinary telephone or mobile terminal, the mobile device 30-B
When a call signal is sent from the exchange section 11 and the call signal is transmitted from the exchange section 11, the incoming call restriction to the own station is released by accepting this call signal. Also, with respect to the call from the mobile device 30-B, the restriction is released so that the call can be normally performed.

FIG. 8 is a block diagram of the second embodiment of the present invention shown in FIG.
9 is a flowchart showing the operation of the mobile station of FIGS. 1 and 2, FIG. 9 is a flowchart showing the operation of each base station of FIGS. 1 and 2 in the second embodiment of the present invention, and FIG. 10 is the second embodiment of the present invention. FIG. 11 is a flowchart showing the operation of the exchange unit of FIG. 1 in the embodiment, and FIG. 11 is a flowchart showing the operation of the position information control unit of FIG. 1 in the second embodiment of the present invention.

1, 2 and 8-11, the mobile unit 3
0 recognizes that it is wirelessly connected to the base stations 21, 22, and 23 (steps E1, Ye in FIG. 8).
s), the delay time of the radio wave from each of the base stations 21, 22 and 23 is measured (step E2 in FIG. 8). Then, the mobile device 30 transmits the delay time information of the radio wave from the base station 21 to the base station 21, the delay time information of the radio wave from the base station 22 to the base station 22, and the radio wave from the base station 23. The delay time information is transmitted to the base station 23 (step E in FIG. 8).
3).

The base stations 21, 22, and 23 are connected to the mobile unit 3 respectively.
When delay time information is received from 0 (step F in FIG. 9)
1, Yes), and transmits the received delay time information to the exchange unit 11 of the exchange (step F2 in FIG. 9). Exchange section 11
When the delay time information is received from each of the base stations 21, 22 and 23 (step G1, Yes in FIG. 10), the delay time information is output to the position information control unit 12 and the position information control unit 12 is output. On the other hand, the section information of the Z area and the position information of the mobile device 30 are requested (step G2 in FIG. 10).

The position information control unit 12 receives each delay time information from the exchange unit 11 (steps H1, Y in FIG. 11).
es), the distance from the base station 21 to the mobile device 30, the distance from the base station 22 to the mobile device 30, and the distance from the base station 23 to the mobile device 30 are calculated based on the received delay time information, Is held as the position information of the mobile device 30 (step H2 in FIG. 11). Then, since the position information control unit 12 is requested by the exchanging unit 11 for the section information of the Z area and the position information of the mobile device 30 in step G2 of FIG. The position information is output to the exchange section 11 (step H3 in FIG. 11).

In step G3 of FIG. 10, the exchange unit 1
1 is based on the position information of the mobile device 30 and the section information of the Z area 40 received from the position information control unit 12.
Is present in the Z area 40. When the exchanging unit 11 determines that the mobile device 30 is present in the Z area 40 (step G3, Yes in FIG. 10), each base station sends an outgoing / incoming call prohibition signal for restricting incoming / outgoing calls of the mobile device 30. It is transmitted to 21, 22, and 23 (step G4 in FIG. 10).

In step F3 of FIG. 9, each base station 2
When receiving the outgoing / incoming call prohibition signal from the exchange unit 11 (step F3, Yes in FIG. 9), the 1, 22, and 23 transmit the received outgoing / incoming call prohibition signal to the mobile device 30 (step F4 in FIG. 9). In step E4 of FIG. 8, the mobile device 30
Since the signal received from the exchange unit 11 via each of the base stations 21, 22, and 23 is the outgoing / incoming call prohibiting signal (step E4 in FIG. 8, outgoing / incoming call prohibiting signal), the , Prohibits incoming / outgoing calls from your own station (step E in FIG. 8)
5).

Further, in step G3 of FIG. 10, when the exchange section 11 determines that the mobile unit 30 is located outside the Z area 40 (No in step G3 of FIG. 10), the mobile unit 30 makes and receives a call. An outgoing / incoming call prohibition cancellation signal for canceling the restriction is transmitted to each of the base stations 21, 22 and 23 (FIG. 10).
Step G5). In step F3 of FIG. 9, each of the base stations 21, 22 and 23 receives the outgoing / incoming call prohibition cancellation signal from the exchange 11 (steps F3 and Ye of FIG. 9).
s), and transmits the received outgoing / incoming call prohibition cancellation signal to the mobile device 30 (step F4 in FIG. 9).

In step E4 of FIG. 8, the mobile unit 30
Since the signal received from the exchange section 11 via each of the base stations 21, 22 and 23 is the outgoing / incoming call prohibition cancellation signal (step E4 in FIG. 8, outgoing / incoming call prohibition cancellation signal), In response, the call origination / termination restriction of the own station is released so that the subsequent call origination / termination can be normally performed (step E6 in FIG. 8). In addition, in step E6 of FIG.
If the mobile device 30 is in the state of restricting outgoing / incoming calls of its own station, the restriction is released as described above, but it is not in a state of restricting outgoing / incoming calls but may be in a state of normal outgoing / incoming calls. In that case, it should be maintained.

As described above, in the mobile communication system according to the second embodiment of the present invention, as in the first embodiment of the present invention, the transmission / reception restriction for the mobile device 30 existing in the Z area 40 is restricted. Instead of making a call for each incoming or outgoing call to the mobile station 30, the mobile station 30 moving within the Z area 40 transmits a call originating / blocking prohibition signal so that the mobile station 30 itself restricts outgoing / incoming calls. The load on the replacement unit 11 of 10 can be reduced.

Next, a mobile communication system according to a third embodiment of the present invention will be described with reference to the drawings. The basic configuration of the mobile communication system according to the third embodiment of the present invention is the same as that of the mobile communication system according to the first embodiment of the present invention. However, in the mobile communication system according to the first embodiment of the present invention, The switching unit 11 of the switching center 10 controls the calling and receiving of the mobile device 30 in the Z area 40 by comparing the position of the mobile device 30 with the section of the Z area 40. In the mobile communication system according to the embodiment, the mobile device 30 compares the position of its own station with the section of the Z area 40 to determine the Z area 4
The incoming and outgoing call of the own station within 0 is regulated.

That is, in FIG. 1 and FIG.
1 notifies the mobile device 30 of the section information of the Z area 40 held by the position information control unit 12 and the position information of the mobile device 30. Then, in the mobile device 30, its own station is in the Z area 4
If it exists in the Z area 40, it judges whether or not the own station originates and receives.

FIG. 12 is a flow chart showing the operation of the mobile unit shown in FIGS. 1 and 2 in the third embodiment of the present invention.
13 is a flowchart showing the operation of each base station of FIGS. 1 and 2 in the third embodiment of the present invention, and FIG. 14 is a flowchart showing the operation of the exchange unit of FIG. 1 in the third embodiment of the present invention. FIG. 15 is a flow chart showing the operation of the position information control unit of FIG. 1 in the third embodiment of the present invention.

In FIGS. 1, 2 and 12 to 15, the mobile unit 30 recognizes that its own station is wirelessly connected to the base stations 21, 22 and 23 (steps I1,
Yes), and the delay time of the radio wave from each of the base stations 21, 22 and 23 is measured (step I2 in FIG. 12). Then, the mobile device 30 transmits the delay time information of the radio wave from the base station 21 to the base station 21, the delay time information of the radio wave from the base station 22 to the base station 22, and the radio wave from the base station 23. The delay time information is transmitted to the base station 23 (step I3 in FIG. 12).

Each base station 21, 22 and 23 is connected to the mobile unit 3
When the delay time information is received from 0 (step J in FIG.
1, Yes), and transmits the received delay time information to the exchange unit 11 of the exchange 10 (step J2 in FIG. 13). When the exchange unit 11 receives the delay time information from each of the base stations 21, 22 and 23 (step K1, Yes in FIG. 14), the exchange unit 11 outputs each of the received delay time information to the position information control unit 12 and also performs the position information control. The section 12 is requested for section information of the Z area and position information of the mobile device 30 (step K2 in FIG. 14).

The position information control unit 12 receives each delay time information from the exchange unit 11 (steps L1, Y in FIG. 15).
es), the distance from the base station 21 to the mobile device 30, the distance from the base station 22 to the mobile device 30, and the distance from the base station 23 to the mobile device 30 are calculated based on the received delay time information, Is held as the position information of the mobile device 30 (step L2 in FIG. 15). Then, the position information control unit 12 is requested by the exchange unit 11 for the section information of the Z area 40 and the position information of the mobile device 30 in step K2 of FIG. The position information of 30 is output to the exchange unit 11 (step L3 in FIG. 15).

In step K3 of FIG. 14, the exchange unit 1
1 is the requested location information of the mobile device 30 and the Z area 40.
When the section information is received (step K3, Ye in FIG. 14).
s), the received location information of the mobile device 30 and the Z area 40
The section information of is transmitted to each of the base stations 21, 22 and 23 (step K4 in FIG. 14).

In step J3 of FIG. 13, each of the base stations 21, 22 and 23 receives the position information of the mobile unit 30 and the section information of the Z area 40 from the exchange section 11 (see FIG. 1).
3 (step J3, Yes), the received position information of the mobile device 30 and the section information of the Z area 40 are transmitted to the mobile device 30 (step J4 in FIG. 13).

In step I4 of FIG. 12, the mobile unit 3
When 0 receives the position information of the mobile device 30 and the section information of the Z area 40 from the switching unit 11 via each of the base stations 21, 22 and 23 (steps I4 and Yes in FIG. 8), the local station 0 It is determined whether or not it exists in the Z area 40 (step I5 in FIG. 12). When the mobile device 30 determines that its own station is present in the Z area 40 (steps I5 and Yes in FIG. 12), it restricts outgoing and incoming calls of its own station (step I6 in FIG. 12).

Further, in step I5 of FIG. 12, when the mobile station 30 determines that the own station is outside the Z area (step I5, No of FIG. 12), it cancels the outgoing / incoming call restriction of the own station. Then, the subsequent incoming and outgoing calls can be normally performed (step I7 in FIG. 12). Note that FIG.
In step I7, if the mobile device 30 is in the state of restricting the outgoing / incoming call of its own station, the restriction is released as described above, but the outgoing / incoming call is not in the restricted state, and the outgoing / incoming call is normally made. If it is a state to be carried out, the state may be maintained.

As described above, in the mobile communication system according to the third embodiment of the present invention, as in the first embodiment of the present invention, the exchanging unit 11 changes the position of the mobile unit 30 and the section of the Z area 40. In comparison, the mobile device 30 existing in the Z area 40
The mobile device 30 compares the position of its own station with the zone of the Z area 40, and the mobile device 30 itself restricts the outgoing and incoming calls, instead of performing the outgoing and incoming call restriction for each outgoing and incoming call to the mobile device 30. As a result, the load on the exchange unit 11 can be reduced.

[0079]

The effect of the present invention is that it is possible to more easily regulate telephone calls in a desired area. The reason is that the position of the mobile station is specified based on the propagation time of the radio wave between each base station and the mobile station by utilizing the fact that a plurality of base stations and the mobile station are simultaneously connected by radio. This is because it is possible to regulate calls in a desired area without adding hardware on the wireless side.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration of a mobile communication system according to a first embodiment of the present invention.

FIG. 2 is a diagram showing a configuration of a mobile communication system according to the first embodiment of the present invention.

FIG. 3 is a diagram for explaining section information of a Z area in FIG.

FIG. 4 is a flowchart showing an operation of the mobile device of FIGS. 1 and 2.

5 is a flowchart showing the operation of each base station of FIGS. 1 and 2. FIG.

6 is a flowchart showing the operation of the exchange section of FIG.

FIG. 7 is a flowchart showing the operation of the position information control unit of FIG.

FIG. 8 is a flowchart showing the operation of the mobile device of FIGS. 1 and 2 in the second embodiment of the present invention.

FIG. 9 is a flowchart showing the operation of each base station of FIGS. 1 and 2 in the second exemplary embodiment of the present invention.

FIG. 10 is a flowchart showing the operation of the exchange section of FIG. 1 in the second embodiment of the present invention.

FIG. 11 is a flowchart showing the operation of the position information control unit of FIG. 1 in the second embodiment of the present invention.

FIG. 12 is a flowchart showing an operation of the mobile device of FIGS. 1 and 2 in the third embodiment of the present invention.

FIG. 13 is a flowchart showing the operation of each base station of FIGS. 1 and 2 in the third exemplary embodiment of the present invention.

FIG. 14 is a flowchart showing the operation of the exchange section of FIG. 1 in the third embodiment of the present invention.

FIG. 15 is a flowchart showing an operation of the position information control unit of FIG. 1 in the third exemplary embodiment of the present invention.

FIG. 16 is a diagram showing the configuration of a general CDMA mobile communication system.

FIG. 17 is a diagram showing a configuration of a general CDMA mobile communication system.

FIG. 18 is a diagram for explaining the operation of the mobile communication system of FIGS. 16 and 17.

FIG. 19 is a diagram showing the positions of the mobile units of FIGS. 16 and 17 and the base stations with which the mobile units at the positions communicate.

FIG. 20 is a diagram showing a configuration of a conventional mobile phone system.

FIG. 21 is a diagram showing a configuration of a conventional mobile phone system.

22 is a diagram showing the position of the mobile device of FIGS. 20 and 21 and the base station with which the mobile device existing at that position communicates. FIG.

FIG. 23 is a diagram for explaining a conventional mobile communication system.

[Explanation of symbols]

10, 50 Exchange station 11 Exchange section 12 Position information control sections 21-23, 51-53, 55 Base stations 21a-23a, 51a-53a, 55a Base station areas 30, 54 Mobile station 40 Z area

─────────────────────────────────────────────────── ─── Continued Front Page (51) Int.Cl. ⁷ Identification Code FI Theme Coat (Reference) H04B 7/26 109L

Claims (10)

[Claims] 1. A code division multiple access mobile communication system including a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio and a switching center accommodating the plurality of base stations. , The exchange has a position information control unit for specifying the position of the mobile station based on the propagation time of the radio wave between the mobile station and each of the plurality of base stations, by the position information control unit A mobile communication system, wherein outgoing calls from the mobile station and incoming calls to the mobile station are restricted according to the identified position of the mobile station. 2. The location information control unit holds section information of a call originating / terminating restricted area where the outgoing and incoming calls should be regulated, and the exchange station stores section information of the outgoing / incoming regulatory area and a position of the mobile station. The mobile communication system according to claim 1, wherein the outgoing call and the incoming call are restricted according to the comparison result. 3. The switching center transmits an outgoing / incoming call prohibition signal to the mobile station according to the comparison result, and the mobile station responds to the outgoing / incoming call prohibition signal to send and receive from the own station. The mobile communication system according to claim 2, wherein an incoming call to the own station is prohibited. 4. A mobile communication system of a code division multiple access system including a mobile station, a plurality of base stations connected to the mobile station by radio at the same time, and an exchange station accommodating the plurality of base stations. , The exchange has a position information control unit for specifying the position of the mobile station based on the propagation time of the radio wave between the mobile station and each of the plurality of base stations, by the position information control unit The mobile station is notified of the specified location of the mobile station, and the mobile station regulates outgoing calls from the local station and incoming calls to the local station according to the location of the local station notified by the exchange. A mobile communication system characterized by the above. 5. The position information control unit holds section information of a calling / terminating restricted area where the outgoing and incoming calls should be restricted, and the exchange station sets section information of the outgoing / incoming restricted area of the mobile station. Along with notifying the mobile station, the mobile station compares the section information of the outgoing and incoming call regulation area and the position of the mobile station, and regulates the outgoing and incoming calls according to the comparison result. The mobile communication system according to claim 4. 6. A mobile communication system of a code division multiple access system including a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio and a switching center accommodating the plurality of base stations. A regulation method, in the exchange, a position specifying step of specifying a position of the mobile station based on a propagation time of a radio wave between the mobile station and each of the plurality of base stations, and a position specifying step thereof And a step of restricting outgoing calls from the mobile station and incoming calls to the mobile station according to the position of the mobile station specified by. 7. The restricting step includes a comparing step of comparing section information of an outgoing / incoming restricted area where the outgoing and incoming call should be restricted with the position of the mobile station, and the outgoing and outgoing calls are made according to the comparison result. The outgoing / incoming call restriction method according to claim 6, wherein incoming calls are restricted. 8. The restricting step transmits an outgoing / incoming call prohibition signal to the mobile station according to the comparison result, and the mobile station responds to the outgoing / incoming call prohibition signal to make a call from the own station. 8. The outgoing / incoming call restricting method according to claim 7, further comprising a step of prohibiting an incoming call to its own station. 9. A code division multiple access mobile communication system including a mobile station, a plurality of base stations simultaneously connected to the mobile station by radio and a switching center accommodating the plurality of base stations. A regulation method, in the exchange, a position specifying step of specifying a position of the mobile station based on a propagation time of a radio wave between the mobile station and each of the plurality of base stations, and a position specifying step thereof A notification step of notifying the mobile station of the position of the mobile station specified by, in the mobile station, according to the position of the own station notified by the notification step, originating from the own station and to the own station A call origination / termination control method comprising a regulation step of regulating an incoming call. 10. The notification step notifies the mobile station of the section information of the outgoing / incoming call restriction area in which outgoing and incoming calls should be restricted, together with the position of the mobile station, and the restriction step is notified by the notification step. 10. The outgoing and incoming call regulation according to claim 9, further comprising a comparing step of comparing the section information of the outgoing and incoming call regulation area with the position of the mobile station, and the outgoing and incoming calls are regulated according to the comparison result. Method.