JP2003284138A - High speed mobile detection terminal control method and terminal for mobile communication - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simply and accurately discriminate high a speed movement of a terminal for mobile communication and to effectively limit operations such as call transmission and call termination without increasing a load on an exchange and a base station. <P>SOLUTION: The mobile communication terminal 100 receives a timing signal and position information from at least three base stations (BTS 1 to 3) to detect a current position of its own terminal, and discriminates a mobile speed from a change in the current position. Thus, a base station can detect that the mobile communication terminal 100 is moving at a high speed to be able to place a limit on the call transmission and termination. Since the mobile communication terminal 100 receives a radio wave from the base station even in this state, the limit of the call transmission termination is released when the high speed movement is finished. Thus, it is possible to give trouble to surrounding people on a public transportation facility and to prevent the user himself from being surprised at a ringer tone. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-speed mobile detection terminal control method and a mobile communication terminal for detecting the moving speeds of various mobile communication terminals and restricting their use.

[0002]

2. Description of the Related Art Recently, mobile communication terminals have become indispensable in our daily lives. The mobile communication terminal is very convenient because it can call anyone at any time, anywhere. However, the problem is that since mobile communication terminals can be connected anytime, anywhere, it is possible to make and receive calls even while driving public transport, driving a car, etc. The ringtone of the phone will be annoying and it will bother people around you, you will be surprised when the ringtone sounds while you are driving a car, and you will be distracted because you made a call while driving. is there.

In order to solve such a problem, for example, in Japanese Unexamined Patent Publication No. 2001-160985 (first conventional example), the present location is specified based on the information received from the mobile communication terminal from GPS. , By sending data to the base station and comparing and judging on the base station side, if it is in a prohibited area, power off the mobile communication terminal side or change the setting to manner mode A method has been proposed in which control such as the above is performed from the base station side.

Further, as a method of detecting the moving speed of a mobile communication terminal and restricting its use, for example, Japanese Unexamined Patent Publication No. 2001-782.
As disclosed in Japanese Laid-Open Patent Publication No. 64 (second prior art), fading is detected on the mobile communication terminal side, and Japanese Patent Laid-Open No. 10-327.
As disclosed in Japanese Patent No. 464 (the third conventional example), a method of detecting fading on the base station side has been proposed. Further, as disclosed in, for example, Japanese Unexamined Patent Application Publication No. 2001-326976 (fourth conventional example), GPS is used on the mobile communication terminal side.
By periodically measuring the position information using the mobile phone, and sending this position information to the exchange side, the exchange side can grasp the change in the position of the mobile communication terminal and move at high speed. A method of restricting incoming calls has been proposed.

[0005]

However, in the above-mentioned first conventional example, the mobile communication terminal must always exist at a location where data can be received from the GPS, and the base station device allows all mobile communication terminals to be present. It is said that the load on the base station side becomes very high, and once the power for the mobile communication terminal is controlled, it cannot be returned to the normal mode unless the user operates it. There was a problem. Further, in the second and third conventional examples, since the moving speed is detected by detecting fading, it is difficult to detect the moving speed accurately, and complicated control is required. Further, in the fourth conventional example, since the position measurement using GPS is performed on the mobile communication terminal side, it is difficult to measure the position in detail, and the exchange side determines the moving state and limits incoming calls. Therefore, when there are many mobile communication terminals, there is a problem that the load on the exchange side increases.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to detect a high-speed movement that can easily and accurately determine the high-speed movement of a mobile communication terminal and effectively limit the movement of the mobile communication terminal without increasing the load on a switchboard or a base station. An object is to provide a terminal control method and a mobile communication terminal.

[0007]

In order to achieve the above object, the present invention detects the moving speed of a mobile communication terminal and limits the operation of the mobile communication terminal during high speed movement. In the method, the mobile communication terminal receives a timing signal indicating a signal transmission time from at least three or more base stations and position information of each base station to detect a current position of the mobile device, and It is characterized in that the moving speed is judged from the change of the current position, and the operation restriction of the own machine is set and released based on the judgment result.

Further, the present invention is a mobile communication terminal which performs wireless communication with a plurality of base stations and communicates various signals with a partner terminal via any one of the base stations. From the current position detecting means for receiving the timing signal indicating the signal transmission time from the station and the position information of each base station to detect the current position of the own device, and the change of the current position detected by the current position detecting means. It has a moving speed judging means for judging the moving speed, and a control means for setting and canceling the operation restriction of the own machine based on the judgment result of the moving speed judging means.

In the high-speed movement detection terminal control method and the mobile communication terminal of the present invention, the mobile communication terminal detects the current position of its own device based on the timing signal and the position information from the base station to determine the moving speed. It is decided, and based on the result of the decision, the operation restriction of the own machine is set and released.
It is possible to accurately detect the moving speed of the mobile communication terminal and to limit outgoing and incoming calls without imposing a burden on the base station side. Therefore, in various transportation means, it is possible to effectively prevent annoying ringing of mobile communication terminals and annoyance to the surroundings due to bad use of manners by the user himself. It is possible to prevent accidents while the user himself is driving.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of a high speed movement detecting terminal control method and a mobile communication terminal according to the present invention will be described below. This embodiment is a mobile communication terminal capable of receiving signals transmitted from a plurality of base stations at the same time,
By temporarily changing the settings of the mobile communication terminal itself, the mobile communication terminal itself will not disturb the surroundings when making or receiving calls when riding in a high-speed vehicle such as a public transportation system. It is intended to provide a method aimed at preventing annoyance to users.

FIG. 1 is an explanatory diagram showing a configuration of a mobile communication system to which a high speed movement detecting terminal control method according to an embodiment of the present invention is applied. The high-speed movement detection terminal control method according to this example changes the setting so as to restrict the mobile communication terminal 100 from emitting radio waves while the mobile communication terminal is moving at high speed. This makes it possible to temporarily prohibit incoming and outgoing calls, and to prevent others from being disturbed by loud ringing tones or radio waves emitted from the mobile communication terminal itself, or to prevent users from being surprised by sudden incoming calls. Specifically, as shown in FIG. 1, first, the mobile communication terminal 10
0 is a base station (BTS) 1
It is possible to receive signals from a plurality of BTSs 1 to 3 at the same time, as indicated by. This is 3GPP (3r
d Generation Partnership Project), the third
It is described in the regulations of the next generation mobile communication system and is realized by the existing system. Further, the radio waves emitted from the BTSs 1 to 3 include a timing signal indicating the time when the radio waves are transmitted and position information indicating the location of each of the BTSs 1 to 3, and the mobile communication terminal 100 is
It is assumed that the position of the own device can be determined based on this timing signal and the position information.

Next, specific examples of the present invention will be described in detail. (First Embodiment) FIG. 2 is a block diagram showing a configuration example of a mobile communication terminal 100 according to the first embodiment of the present invention.
FIG. 3 is an explanatory diagram showing a state in which the mobile communication terminal 100 and the BTSs 1 to 3 are communicating in the system according to the first embodiment of the present invention. The mobile communication terminal 100 uses the function of determining the current position based on the timing signal and the position information described above, and stores the current position in the memory 16 at regular intervals. Then, the CPU 15 compares the current position with the position of the mobile communication terminal 100 stored in the memory 16 for a certain period of time, so that it can be determined in which direction and how much the own device has moved. Further, the moving speed per unit time can be determined from the difference between the time when the position was measured last time and the current time.

From this judgment result, the mobile communication terminal 10
If it is determined that 0 is moving faster than the threshold value, the CPU determines that it is moving by a public transportation system.
The determination was made by the user 15, and conventionally, the setting had to be changed by the operation unit 13. However, even if the setting is forgotten, the mobile communication terminal 100 itself detects that it is moving and moves. The body communication terminal 100 is restricted from emitting radio waves. As a result, the mobile communication terminal 100 can place restrictions on the incoming and outgoing operations. Further, since the radio waves are received, the current position of the mobile communication terminal 100 itself can be determined, and therefore the mobile communication terminal 100 itself has a feature that the setting can be returned to the original setting when the high speed movement ends.

Next, a specific configuration of each part of the system according to this embodiment will be described. First, the mobile communication terminal 1
00 is a mobile phone or the like of a system generally called a CDMA system, and is a mobile device capable of receiving radio waves transmitted from a plurality of BTSs 1 to 3 at a time. BTSs 1 to 3 are base station devices that directly communicate with the mobile communication terminal 100, and are networks that are generally connected by lines, such as mobile communication networks and fixed telephone networks. General and mobile communication terminal 1
00 is a relay point for connection. Then, as shown in FIG. 1, the mobile communication terminal 100 exchanges signals by transmitting and receiving radio waves. It should be noted that, in the present embodiment, the timing signal indicating the time for transmitting the radio wave and each B
Position information indicating the locations of TS1 to TS3 is used. In addition to the timing signal and the position information, it also outputs a control signal for controlling each mobile communication terminal 100 and a data signal such as voice.

Further, in the mobile communication terminal 100, as shown in FIG. 2, a receiving unit 11, a data converting unit 12, an operating unit 13, a comparison control unit 14, a CPU 15, a memory 16,
It is composed of a clock 17. The receiving unit 11 includes an antenna and the like, and receives radio waves from the BTSs 1 to 3.
The data conversion unit 12 performs data conversion and extraction so that signals of respective units connected to each other can be used mutually.
Here, the timing signal and the position information described above are also converted / extracted. The operation unit 13 is a keyboard or the like, and is for performing external control such as setting change.

The comparison control unit 14 fetches a signal from the data conversion unit 12, compares the fetched data, etc., and finds out the present location of the own device or the memory 16 obtained by previously finding out.
The moving speed is detected by comparing with the place stored in. The CPU 15 executes a program stored in the memory 16 to operate the mobile communication terminal 100. For example, setting of each unit such as the receiving unit 11 and control of the comparison control unit 14 and reading / writing of the memory 16 are performed. Etc. perform all control of the mobile communication terminal 100. Memory 16
Stores a program for operating the mobile communication terminal 100, and is also used for temporarily storing position information and the like obtained by the high-speed movement detection terminal control method according to the present embodiment. .

The clock 17 is a timekeeping means provided inside the mobile communication terminal 100, and detects a highly accurate time by synchronizing with each of the BTSs 1 to 3. Each BTS always outputs a reference signal (timing signal). The mobile communication terminal 100 uses the clock 17 based on this signal.
Generates the clock signal used in. Although there are several synchronization methods, for example, even if the times of the BTSs 1 to 3 and the mobile communication terminal 100 are different from each other in order to synchronize the times, the BTSs 1 to 3 periodically perform internal operations of their own devices. By transmitting the time of
The time sent from the mobile communication terminal 100, the time taken for the transmission, and the like are calculated, and a correction signal is output to the mobile communication terminal 100. The mobile communication terminal 100 can obtain an accurate time from this signal.

In FIG. 3, distances 201 to 203 indicate the distances between the mobile communication terminal 100 and the BTSs 1 to 3, which are derived by calculation in the present embodiment.
As a calculation method, from the time when the radio wave is transmitted from BTS1 to 3 and the time when the radio wave transmitted from BTS1 to 3 is received by the mobile communication terminal 100 until the radio wave reaches the mobile communication terminal 100. It is possible to derive the distances 201 to 203 from the BTSs 1 to 3 to the mobile communication terminal 100 by measuring the time and multiplying the radio wave propagation speed by the time.

Next, the operation of this embodiment will be described.
FIG. 4 is a flow chart showing an operation according to the first embodiment of the present invention, and FIG. 5 is an explanatory diagram showing a moving distance detecting method of a mobile communication terminal according to the first embodiment of the present invention.
The operation shown in FIG. 4 is an operation repeatedly performed at regular intervals. Normally, the accuracy is improved by repeating the operation in a short time, but if there is no movement of at least about 100 m, it will be detected as an error, so 30 km / h
Here, it is assumed that the time for moving 100 m is repeated every 12 seconds. First, the mobile communication terminal 100
Suppose that you have been using your daily routine and that you used public transportation when going out. During this period, the mobile communication terminal 100 is constantly
The reception unit 11 receives the radio waves emitted from TS1 to TS3. Then, the received radio wave is output to the data conversion unit 12, and the data conversion unit 12 converts the data so that it can be used in other connected parts. Here, the timing signal indicating the time for transmitting the radio wave and the position information indicating the locations of the BTSs 1 to 3 are also converted / extracted.

The comparison control unit 14 takes in the signals converted / extracted by the data conversion unit 12, and based on the position information of each BTS1-3 and the timing signals of each BTS1-3, the mobile communication terminal 100 and each BTS1. Distance 201 ~ 3
Calculate 203. The calculation method here is BTS
A clock 17 in the mobile communication terminal 100 synchronized with 1 to 3
To use. The clock 17 in the mobile communication terminal 100 is
The time is always adjusted in synchronization with the timing signals from BTS1 to BTS3. Then, the time of this clock 17 is compared with the time in the timing signals received from BTS1 to 3, and the time required for the radio wave to arrive from BTS1 to 3 is calculated as a difference. Furthermore, each BTS1
Depending on the position information of No. 3 and the time required to reach the radio wave, the distance 201 to the mobile communication terminal 100 and each of the BTSs 1 to 201
It is possible to obtain 203 (A1).

Next, the CPU 15 calculates the position of the own device based on the detected distances 201 to 203 to the respective BTSs 1 to 3. Since the accurate distances 201 to 203 from the mobile communication terminal 100 to the BTSs 1 to 3 and the accurate positions of the BTSs 1 to 3 are known, the position of the own device by the three-point method, that is, the current position of the mobile communication terminal 100. A certain place can be accurately obtained by latitude and longitude. Therefore, by comparing this calculation result with the previously obtained result stored in the memory 16, it is possible to determine the distance and the direction in which the own device has moved in a certain time. For example, suppose you board a train that travels at a speed of 40 km / h. It is assumed that the latitude / longitude initially obtained by the above-described calculation method is the point (a), and after a certain time, the point (b) is obtained again by the above-mentioned calculation method. Therefore, a distance (c) of about 140 m moved in the latitudinal direction and a distance (d) of about 140 m moved in the longitudinal direction are obtained from the difference between these two points (a) and (b), and (c)
² ) + (d ² ) square root value (e) Approximately 200 m is the distance actually moved by the mobile communication terminal 100, and the direction of movement is determined from the values of (c) and (d) can do.

Further, if the + direction of latitude is north and the + direction of longitude is west, it can be seen that in this case it has moved northwest. Further, since the distance (e) that the mobile communication terminal 100 has moved after a certain period of time is known, the average speed of movement of the mobile communication terminal 100 during the certain period (1
Every 2 seconds), the speed of moving 200m in 12 seconds is 4
It can be calculated as 0 km (A2). The shorter the interval for obtaining the position of the mobile communication terminal 100, the more accurate the moving distance and speed can be obtained.

Next, the CPU 15 changes the setting when it is determined that the mobile communication terminal 100 is moving at a certain speed or more as a result of the comparison and calculation previously performed. For example, if a person is moving by his / her own power, 30 km / h
The degree is considered to be the limit. Therefore, in the present embodiment, when it is determined that the mobile communication terminal 100 is moving at a speed of 30 km / h or more, the mobile communication terminal 100 only receives the radio waves from the BTSs 1 to 3, and the mobile communication terminal 100 transmits the radio waves. The CPU 15 temporarily changes the setting of each unit in order to make the incoming and outgoing call temporarily impossible by limiting the operation of outputting (A3). This will not bother others and prevent you from being surprised by the ringtone while driving. Regarding the speed of the judgment reference, the slower the reference speed is, the shorter the time until detection is. If it is determined in A2 that the mobile terminal is not moving at a high speed, the mobile communication terminal 100 is returned to the state before the setting is changed in A3, such as releasing the restriction of outgoing / incoming calls and setting the ring tone. (A4). Accordingly, the mobile communication terminal 100 can be set only while moving at high speed without using the operation unit 13. The position information of the own device obtained this time is stored in the memory 16 for comparison with the value obtained next time (A5).

In the first embodiment as described above, the following effects can be obtained. (1) Since the mobile communication terminal 100 does not output radio waves by stopping the call originating / receiving function of the mobile communication terminal when moving at high speed using a public transportation system, etc. This has the effect of not inconvenience people who use pacemakers, etc., in transportation facilities. (2) Similarly, since the ring tone does not sound in a vehicle such as a public transportation system, the surrounding person does not feel uncomfortable and the person himself is not surprised. (3) Similarly, when a car is being driven, a ring tone sounds and the driver cannot concentrate on driving, thereby preventing an accident. (4) Since it is not necessary to change the hardware configuration on the side of the mobile communication terminal 100 as well as the configuration on the infrastructure side such as the base station, it is possible to realize the high-speed movement detection terminal control method by changing only the software processing part. It can be realized easily with the current equipment and configuration, and the cost required to realize it is low.

(Second Embodiment) FIG. 6 is a block diagram showing a configuration example of a mobile communication terminal 100 according to a second embodiment of the present invention, and FIG. 7 is an operation according to the second embodiment of the present invention. It is a flowchart showing. The operation shown in FIG. 7 shows an operation repeatedly performed at regular intervals. Normally, the accuracy is improved by repeating the operation in a short time, but since an error is detected if there is no movement of at least about 100 m, it is repeated every 12 seconds here as the time for moving 100 m at a speed of 30 km / h. I shall. In the above-described first embodiment, the mobile communication terminal 100 is determined to be moving unless the vehicle reaches a certain speed when riding in a public transportation system or driving a car. Therefore, when the train or the like is temporarily stopped, the restriction on the incoming call / ringing shown in A4 is executed. This is inefficient, and there is no effect of preventing annoyance from surrounding people or being surprised by a ring tone when the train or the like is stopped. Therefore, in the second embodiment, as shown in FIG. 6, by adding the vibration detection unit 18 to the configuration shown in FIG. 3, the movement detection and the vibration detection are combined to further improve the judgment ability. It was done.

As the vibration detecting unit 18, a small one for judging the strength of vibration used in a commercially available on-vehicle radar detector or the like is installed inside the mobile communication terminal 100. It is provided. This vibration detector 18
Thus, the magnitude of the vibration received by the mobile communication terminal 100 is detected. With regard to the type of vibration, there are two types of vibration, i.e., vibration caused by idling when using a transportation system and vibration during walking. Since the frequencies are different, the vibration detected by the vibration detection unit 18 is analyzed, and the mobile communication terminal 1 is analyzed.
It is possible to determine the type of vibration occurring at 00. The vibration detector 18 constantly detects vibration, detects the position of the mobile communication terminal 100 in the same manner as in the first embodiment described above, and stores the result in the memory 16 when detecting the vibration. Information about the vibration detected at 18 is also stored together.

Next, as shown in FIG. 7, with the setting for making outgoing and incoming calls impossible during high-speed movement, the movement amount of the mobile communication terminal 100 decreases, and the outgoing and incoming call restrictions are released. However, in the present embodiment, the presence / absence of vibration is detected by the vibration detection unit 18, and the memory 1
Information about vibration stored in 6 and comparison control unit 14
(B1). Then, as a result of the comparison, if the same vibration as the vibration detected during the immediately preceding high-speed movement is detected, it is determined that the transportation means on board is temporarily stopped, and the mobile communication terminal 100 By maintaining the state without changing the setting of 1, it is possible to prevent further inconvenience to the surroundings as compared with the embodiment of the present invention. Since the other points are the same as those in the first embodiment, the details are omitted.

In the second embodiment as described above, in addition to the effects of the first embodiment, vibration detection is performed even when the vehicle is temporarily stopped after moving at high speed by using a public transportation system or the like. While constant vibration is being detected in the part 18,
By stopping the calling / receiving function, it becomes possible to perform proper usage restrictions.

(Third Embodiment) FIG. 8 is a flow chart showing the operation according to the third embodiment of the present invention. The configuration of mobile communication terminal 100 is assumed to be the same as that shown in FIG. 6, for example. The operation shown in FIG. 8 shows an operation that is repeatedly performed at regular intervals. Normally, the accuracy is improved by repeating the operation in a short time, but since an error is detected if there is no movement of at least about 100 m, it is repeated every 12 seconds here as the time for moving 100 m at a speed of 30 km / h. I shall. In the first and second embodiments described above, the mobile communication terminal 100 is used at a stage before reaching a certain speed, such as immediately after getting into a public transportation system or when starting to drive a car. Can't let you judge. Therefore, in this embodiment, the setting change start point and the end point for changing the setting (use restriction), and the moving route are stored in the memory 1.
By storing the data in No. 6, the judgment ability is further improved.

Regarding the movement route, at the setting change start point, the user operates the operation unit 13 to move the user to the mobile communication terminal 10.
Enter 0 as the setting start point. The mobile communication terminal 100 stores the data in the memory 16 each time the position is confirmed from this point to the setting end point. afterwards,
At the end point of setting, the user has the mobile communication terminal 100.
Enter in the setting end point. During this period, the position of the mobile communication terminal 100 is periodically detected by the method described above. As a result, the movement route can be stored by obtaining the position of the mobile communication terminal 100 from the start point to the end point and storing all the position information in the memory 16.

Next, as shown in FIG. 8, when the amount of movement of the mobile communication terminal 100 becomes small, or when the mobile communication terminal 100 has been set so that incoming and outgoing calls cannot be made during high-speed movement, After the restriction of incoming call is released (A1, A2), the mobile communication terminal 100 compares the moving route stored in the memory 16 with the position of the own device detected at that time (C).
1). Then, as a result of the comparison, when the data stored in the memory 16 and the position of the player's own machine match, it is determined that the user has boarded a public transportation system or vehicle even if he / she is not moving at high speed, and the outgoing / incoming call is restricted (A3). Also,
If they do not match, the incoming and outgoing call is not restricted (A
4). Since the other points are the same as those in the first and second embodiments, detailed description thereof will be omitted. In the present embodiment, when the mobile communication terminal 100 moves to a point where the passenger gets on a public transportation system, it is possible to reliably control outgoing and incoming calls, and it is effective for regular moving routes such as commuting routes. It is possible to restrict usage.

(Fourth Embodiment) FIG. 9 is a flow chart showing the operation according to the fourth embodiment of the present invention, and shows an operation example in which the functions of the above-described second and third embodiments are combined. . The configuration of mobile communication terminal 100 is assumed to be the same as that shown in FIG. 6, for example. next,
As shown in FIG. 9, when the mobile communication terminal 100 has a small amount of movement in a state in which a call is not allowed to be made while moving at high speed, or the restriction of the call is already released. After that (A1, A2), the mobile communication terminal 100 compares the movement route stored in the memory 16 with the position of the own device detected at that time (C1).

Then, as a result of the comparison, when the data stored in the memory 16 and the position of the own machine match, the presence or absence of vibration is detected by the vibration detecting section 18 (D
1). Then, when the vibration detected while the vehicle is in the vehicle is detected, it is determined that the vehicle has already been in the vehicle, and the state of restricting incoming and outgoing calls is set (A3). If no effective vibration is detected, it is determined that the vehicle is in the on-board state (during alighting) and the incoming and outgoing call is not restricted (A4). In this way, the usage regulation can be controlled depending on whether or not the passenger is in the vehicle, and fine control can be performed. The memory 16
The control operation by the speed detection and the vibration detection other than the movement path stored in is assumed to be the same as in the first and second embodiments, and the description thereof will be omitted.

The specific embodiments of the present invention have been described above, but the present invention is not limited to these embodiments, and various modifications can be made. For example, in the above embodiments, incoming calls (ringing) and outgoing calls are collectively controlled according to conditions such as moving speed. However, incoming and ringing, incoming calls and outgoing calls may be separately controlled. Good. Further, the conditions such as the moving speed detection, the vibration detection, and the moving path determination described above can be adopted in various combinations other than the above-described embodiments. Further, each of the embodiments described above can be realized by a program executed by the control computer (CPU) of the mobile communication terminal, and such a program is also included in the scope of the present invention. .

[0035]

As described above, according to the high-speed movement detection terminal control method of the present invention, the mobile communication terminal detects the current position of its own device based on the timing signal and the position information from the base station. The moving speed of the mobile communication terminal is accurately determined without imposing a burden on the base station because the moving speed is judged and the operation restriction of the own device is set and released based on the judgment result. Since it is possible to detect and limit incoming / outgoing calls, for example, in various transportation facilities, there is annoying to the surroundings due to irregular ringing of mobile communication terminals and bad use of manners by the user himself. It is possible to effectively prevent it, and it is possible to prevent an accident while the user himself is driving due to an irregular ringing of the incoming call.

Further, according to the mobile communication terminal of the present invention, the mobile communication terminal detects the current position of its own device based on the timing signal and the position information from the base station to determine the moving speed, Based on the judgment result, the operation restriction of the own device is set and released, so that the moving speed of the mobile communication terminal can be accurately detected and the incoming / outgoing call can be made without burdening the base station side. Because the restriction of
For example, in various transportation facilities, it is possible to effectively prevent annoying ringing of mobile communication terminals and annoyance to the surroundings due to bad use of manners by the user himself, and use due to irregular ringing of incoming calls. It is possible to prevent accidents while the driver is driving.

Furthermore, by controlling the control computer of the mobile communication terminal by the program of the present invention, the mobile communication terminal detects the current position of the mobile communication terminal based on the timing signal from the base station and the position information. The moving speed of the mobile communication terminal is set without releasing the load on the base station side, because the moving speed is judged and the operation restriction of the own device is set and released based on the judgment result. Since it is possible to accurately detect and limit incoming and outgoing calls,
For example, in various transportation facilities, it is possible to effectively prevent annoying ringing of mobile communication terminals and annoyance to the surroundings due to bad use of manners by the user himself, and use due to irregular ringing of incoming calls. It is possible to prevent accidents while the driver is driving.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing a configuration example of a system to which a high speed movement detection terminal control method according to an embodiment of the present invention is applied.

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

FIG. 3 is an explanatory diagram showing a state in which a mobile communication terminal and a base station are communicating in the system according to the first embodiment of the present invention.

FIG. 4 is a flowchart showing an operation according to the first embodiment of the present invention.

FIG. 5 is an explanatory diagram showing a moving distance detecting method for a mobile communication terminal according to the first embodiment of the present invention.

FIG. 6 is a block diagram showing a configuration example of a mobile communication terminal according to a second embodiment of the present invention.

FIG. 7 is a flowchart showing an operation according to the second embodiment of the present invention.

FIG. 8 is a flowchart showing an operation according to the third embodiment of the present invention.

FIG. 9 is a flowchart showing an operation according to the fourth embodiment of the present invention.

[Explanation of symbols]

1 to 3 ... BTS, 11 ... reception unit, 12 ... data conversion unit, 13 ... operation unit, 14 ... comparison control unit, 15 ...
CPU, 16 ... Memory, 17 ... Clock, 18 ... Vibration detection unit, 100 ... Mobile communication terminal.

Claims (22)

[Claims] 1. A moving speed of a mobile communication terminal is detected,
In a high-speed movement detection terminal control method for limiting the operation of a mobile communication terminal that is moving at high speed, the mobile communication terminal includes timing signals indicating signal transmission times from at least three or more base stations and each base station. The position information is received to detect the current position of the own device, the moving speed is determined from the change in the current position, and the operation limit of the own device is set or released based on the result of the determination. A high-speed movement detection terminal control method characterized by the above. 2. The operation restriction is set when the mobile communication terminal determines a moving speed equal to or higher than a certain level, and the operation restriction is released when the deceleration of the moving speed is determined. The method for controlling a high speed movement detection terminal according to claim 1. 3. The high-speed according to claim 1, wherein the operation restriction is an outgoing / incoming operation, and the incoming / outgoing operation is restricted when the mobile communication terminal determines a moving speed equal to or higher than a predetermined speed. Mobile detection terminal control method. 4. The high-speed according to claim 1, wherein the operation restriction is an incoming call ringing operation, and the incoming call ringing operation is restricted when the mobile communication terminal determines a moving speed above a certain level. Mobile detection terminal control method. 5. A vibration applied to the mobile communication terminal is detected when the mobile communication terminal determines that the moving speed is decelerated, and the operation restriction is continued when a constant vibration is detected. The high speed movement detection terminal control method according to claim 2, wherein 6. The high-speed movement detection terminal control method according to claim 5, wherein the operation restriction is released when the constant vibration is not detected. 7. The mobile communication terminal stores a travel route, and the operation restriction is set when the current position of the mobile communication terminal is included in the travel route. The method for controlling a high-speed movement detection terminal according to claim 1. 8. When the mobile communication terminal determines that the moving speed is decelerating and the current position of the mobile communication terminal is included in the travel route, the operation restriction is continued. The method for controlling a high-speed movement detecting terminal according to claim 7, which is characterized in that. 9. A vibration applied to the mobile communication terminal is detected when the current position of the mobile communication terminal is included in the travel route, and the operation restriction is performed when a constant vibration is detected. The method for controlling a high-speed movement detecting terminal according to claim 7, wherein the setting or continuing is performed. 10. The high-speed movement detection terminal control method according to claim 9, wherein the operation restriction is released when the constant vibration is not detected. 11. A mobile communication terminal which performs wireless communication with a plurality of base stations and communicates various signals with a partner terminal via any one of the base stations, wherein at least three or more base stations are connected. Current position detecting means for receiving the timing signal indicating the signal transmission time and the position information of each base station to detect the current position of the own device, and the moving speed from the change of the current position detected by the current position detecting means. A mobile communication terminal, comprising: a moving speed judging means for judging; and a controlling means for setting and canceling an operation restriction of the own machine based on a judgment result of the moving speed judging means. 12. The control unit sets the operation limit when the moving speed determination unit determines a moving speed equal to or higher than a certain value, and releases the operation limit when the moving speed deceleration is determined. The mobile communication terminal according to claim 11, wherein: 13. The mobile communication according to claim 11, wherein the operation restriction is an outgoing / incoming operation, and the control means restricts the incoming / outgoing operation when a moving speed equal to or higher than a predetermined speed is determined. Terminal. 14. The operation limitation is an incoming call ringing operation,
12. The mobile communication terminal according to claim 11, wherein the control unit limits the ringing operation of the incoming call when the moving speed of a certain speed or more is determined. 15. A vibration detecting means for detecting vibration applied to a mobile communication terminal, wherein when the moving speed judging means judges that the moving speed is decelerated, the vibration detecting means detects a constant vibration. 13. The mobile communication terminal according to claim 12, wherein the operation restriction is continued when the mobile communication terminal is operated. 16. The mobile communication terminal according to claim 15, wherein the operation restriction is released when a constant vibration is not detected by the vibration detecting means. 17. The mobile communication terminal has a travel route storage means for storing a travel route, and the current position of the mobile communication terminal is included in the travel route stored in the travel route storage means. The mobile communication terminal according to claim 11, wherein the operation limit is set in the terminal. 18. When the deceleration of the moving speed is determined by the mobile communication terminal and the current position of the mobile communication terminal is included in the travel route stored in the travel route storage means, 18. The mobile communication terminal according to claim 17, wherein the operation restriction is continued. 19. A vibration detection unit for detecting vibration applied to a mobile communication terminal, wherein the current position of the mobile communication terminal is included in the movement route stored in the movement route storage unit, 18. The mobile communication terminal according to claim 17, wherein when the constant vibration is detected by the vibration detecting means, the operation restriction is set or continued. 20. The mobile communication terminal according to claim 19, wherein the operation restriction is released when a constant vibration is not detected by the vibration detecting means. 21. The current position detecting means calculates a distance from each base station according to a timing signal from each base station, and calculates a current position of the own device based on position information and a distance of each base station. The mobile communication terminal according to claim 11, wherein: 22. A program executed by a control computer of a mobile communication terminal, which performs wireless communication with a plurality of base stations and communicates various signals with a partner terminal via any one of the base stations. A current position detecting step of causing the control computer to detect a current position of the own device by receiving timing signals indicating signal transmission times from at least three or more base stations and position information of each base station; A moving speed determination step for determining a moving speed from a change in the current position detected by the current position detection step, and a control step for setting or canceling the operation limit of the own machine based on the determination result of the moving speed determination step. And a program having: