KR100874532B1 - Wireless communication systems, wireless communication methods, origination control devices, and communication devices - Google Patents

Abstract

In any place, an area for restricting the operation of the communication device performing wireless communication can be set with high accuracy, and the management of the operation of the communication device in such an area can be reliably executed. A plurality of transmitters (10-1 to 10-4) for transmitting the position detection radio wave for detecting the position of the communication device 20, the communication device 20 is a plurality of transmitters (10-1 to 10). A detection unit for detecting the position of the communication device 20 based on the plurality of received position detection radio waves when receiving the position detecting radio waves transmitted from -4), respectively, and the communication device 20 detected by the detection unit. It comprises a processing part which operates in the predetermined | prescribed operation | movement aspect according to the position of ().

Description

RADIO COMMUNICATION SYSTEM, RADIO COMMUNICATION METHOD, TRANSMISSION CONTROLLING APPARATUS AND COMMUNICATION APPARATUS}

BRIEF DESCRIPTION OF THE DRAWINGS The figure for demonstrating the structure of the radio | wireless communication system as one Embodiment of this invention.

Fig. 2 is a view for explaining an example of the data structure of a position detecting radio wave transmitted by each of a plurality of originating apparatuses of a wireless communication system according to one embodiment of the present invention.

Fig. 3 is a block diagram showing a plurality of originating apparatuses and originating control apparatuses of the wireless communication system as one embodiment of the present invention.

4 is a view for explaining an operation example of a plurality of originating apparatuses and originating control apparatuses of the radio communication system according to one embodiment of the present invention;

Fig. 5 is a block diagram showing the configuration of main parts of a communication device of a wireless communication system according to one embodiment of the present invention.

6 is a flowchart for explaining the operation procedures of the detection unit and the processing unit of the communication device of the wireless communication system according to the embodiment of the present invention.

7 is a diagram for explaining the configuration of a wireless communication system as a first modification of the present invention.

8 is a diagram for explaining the configuration of a wireless communication system as a second modification of the present invention.

9 is a view for explaining the configuration of a wireless communication system as a third modification of the present invention.

<Explanation of symbols for main parts of the drawings>

1, 1a to 1c: wireless communication system

2: tank vehicle (structure)

10, 10-1 to 10-4: Calling device (calling device)

11: Outgoing control device (outgoing control unit)

12: basic clock

13-1 to 13-4: Signal line

20,20a-20c: Mobile phone (communication device)

21: receiver

22: transmitter

23, 23a-23c: detection part

24: 1st half time calculation part (calculation part)

25: dedicated watch

26: processing unit

The judge

28: operation mode determination unit

29: switching part

R, Ra: Use restriction area (specific area)

R1, R2, Ra1, Ra2: Vertex

[Patent Document 1] Japanese Patent Application Laid-Open No. 2002-209243

[Patent Document 2] Japanese Patent Application Laid-Open No. 2004-193867

TECHNICAL FIELD This invention relates to the technique for controlling the operation | movement aspect of the communication apparatus which performs a wireless communication in a predetermined area | region.

In recent years, owners owning communication devices (communication terminals) that perform wireless communication, such as mobile phones, have increased rapidly, and in public transportation, medical institutions, cinemas, theaters, etc., the use of wireless communication devices and wireless communication in facilities It is desired to limit the operation of functions and the like.

In a facility, if it is intended to limit the radio communication function of a communication device, it is recommended to block the radio wave so that radio waves (for example, radio waves from a base station in the case of a mobile phone) used for the radio communication do not reach the facility. I can think of it.

For example, when the use of a mobile phone in a train is restricted, it is conceivable to use a glass that does not allow electric waves to pass through the tram, and to take measures to prevent electric waves from the base station or the like from reaching the tram. have.

According to this countermeasure, calls and the like by the cellular phone can be restricted. However, in the mobile telephone, when the radio wave is cut off, the output of the radio wave transmitted by the mobile phone by itself becomes large, and the countermeasure cannot limit the output of the radio wave.

Therefore, a technique of obtaining position information of a communication device using a GPS (Global Positioning System) and using the acquired position information to restrict the use of the communication device (see, for example, Patent Document 1 above), or a communication device. There is a technique for installing a transmitter that transmits a radio wave including a specific signal for limiting use (switching to a desired mode of operation) in an area to limit the use of a communication device (see Patent Document 2, for example). .

However, like the technique of Patent Document 1, a technique using GPS cannot be used in a place where a radio wave from a satellite is difficult to reach or does not reach, such as a place with a roof or a basement. For example, it is difficult to use the technique of Patent Document 1 in a tram that runs in a tunnel or a subway that runs underground.

In addition, as in the technique described in Patent Document 2, in a technique for installing a transmitter for transmitting radio waves containing a specific signal for switching to a desired operation mode in a communication apparatus, the transmitter is transmitted from the transmitter. Since the transmission area of the radio wave cannot be set finely, it is difficult to set the area to restrict the use of the communication device with high accuracy.

For example, when the transmitter is installed in a train and the inside of the train is set to a restricted area, when the train is stopped at the home of the station, radio waves from such a transmitter reach the home near the train, The home which is not a use restriction area may also become a use restriction area.

In addition, when a plurality of transmitters are provided, a valley may be formed between the transmission areas of radio waves from the plurality of transmitters. In this valley, radio waves do not reach and the use of the communication apparatus cannot be restricted.

The present invention has been devised in view of the above-described problems, and it is possible to accurately set an area limiting the operation of a communication device performing wireless communication at any place, and to ensure the management of the operation of the communication device in such an area. It aims to be able to run it.

In order to achieve the above object, the radio communication system of the present invention includes a communication device that performs radio communication, and transmits a plurality of transmitters for transmitting position detection radio waves for detecting the location of the communication device to the communication device. A detection unit that detects the position of the communication device based on the plurality of the position detection radio waves received, when the communication device receives the position detection radio waves transmitted from the plurality of transmitters, respectively; On the basis of the position of the communication device detected by this detection unit, a processing unit operating in a predetermined operation mode according to the management area is provided.

The plurality of transmitters are configured to transmit radio waves indicating a specific area within the management area as the radio wave for the position detection, and wherein the processing unit of the communication device detects the position of the communication device detected by the detection unit. And a determination section for determining whether or not it is within the specific area and an operation mode determination section for determining the predetermined operation mode in accordance with the determination result by the determination section (claim 2).

Moreover, in order to achieve the said objective, the wireless communication method of this invention is a transmission procedure which transmits the position detection radio wave from each of a plurality of transmitters for the position of the said communication apparatus to the communication apparatus which can perform wireless communication, and When the communication device receives the position detecting radio waves transmitted from the plurality of transmitters, respectively, the detection procedure for detecting the position of the communication device based on the received plurality of position detection radio waves, and the detection procedure. On the basis of the detected position of the communication apparatus, an operation procedure operating in a predetermined operation mode according to the management area is included (claim 3).

Moreover, in order to achieve the said objective, the transmission control apparatus of this invention is connected with the some transmitter which transmits the position detection radio wave for detecting the position of the said communication apparatus to a communication apparatus, The plurality of transmitters are controlled to transmit radio waves indicating a specific area for executing a predetermined operation to the communication device (claim 4).

Moreover, in order to achieve the said objective, the communication apparatus of this invention is able to receive the position detection electric wave transmitted from each of the some transmitter provided in the management area which will manage the operation of a communication apparatus, On receiving each of the position detecting radio waves transmitted from the transmitter, the detection unit for detecting the position of the communication device based on the plurality of received position detection radio waves, and the position of the communication device detected by the detection unit. It is characterized by including the processing part which operates in the predetermined | prescribed operation aspect which concerns on it (claim 5).

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described, referring drawings.

[1] About an embodiment of the present invention

First, with reference to FIG. 1, the structure of the wireless communication system 1 as one Embodiment of this invention is demonstrated.

As shown in FIG. 1, the wireless communication system 1 includes a hollow rectangular parallelepiped structure (here, a tram vehicle) 2 and a plurality (four or more; four in this case) provided in the structure 2. A transmitter device (caller) 10-1 to 10-4, a transmitter control device (caller control unit) 11, and a cellular phone 20 as a communication device (communication terminal) that performs wireless communication.

In this wireless communication system 1, all the areas in the tram vehicle (hereinafter simply referred to as a vehicle) 2 are management regions to manage the operation of the cellular phone (hereinafter simply referred to as a terminal) 20. The radio communication system 1 restricts the operation of the terminal 20 in a predetermined specific area (hereinafter referred to as a use restriction area) R in this management area (here, the radio communication function is stopped. )

Each of the plurality of transmitting apparatuses 10-1 to 10-4 (hereinafter, simply referred to as the transmitting apparatus 10 when not specifically distinguishing each of the plurality of transmitting apparatuses 10-1 to 10-4). Transmits the position detecting radio wave (refer to FIG. 2 to be described later) for detecting the position (terminal position) of the terminal 20 to the terminal 20.

The position of the terminal 20 is 3 relative to the origin Q (Q (x, y, z) = (0, 0, 0)) set in the lower left front of the vehicle 2 shown in FIG. Dimensional coordinates. In addition, in the following description, a position means three-dimensional coordinates with respect to the origin Q. As shown in FIG.

Here, with reference to FIG. 2, the data structure of the position detection radio wave which each of the some originating apparatus 10 transmits is demonstrated. For the position detection radio wave, the information of the following (a)-(f) is described. Is included.

(a) Group number (1 digit of HEX (hex)) as information for specifying a management area (here in the vehicle 2).

(b) Device number (HEX 1 digit) to identify yourself (the corresponding originating device).

(c) The location (sender device location; HEX 6 digits) of yourself (the corresponding sender device).

(d) Usage restriction area R (HEX 12 digits) for limiting the operation of the terminal 20.

(e) Transmission time (HEX 6 digits) of the corresponding position detection radio wave.

(f) Check island (HEX 1 digit).

In addition, the originating apparatus position of said (c) is positional information (three-dimensional coordinates (x, y, z)) with respect to the origin Q in a management area | region, and the ratio of x, y, z is equal. . For example, when x is "1 cm = 1", y and z are also "1 cm = 1".

In addition, the use restriction area R of said (d) is the information which shows the area | region (use restriction area) R shown by a broken line in FIG. 1 here, and consists of the position of two vertices R1 and R2. .

In this case, since the usage restriction area R is a rectangular parallelepiped, the terminal 20 uses the vertices R1 and R2 as the information indicating the usage restriction area R by using two vertices R1 and R2 on the diagonal. Based on the position of, the use restriction area R can be recognized.

In addition, as shown in FIG. 1, the transmission control apparatus 11 controls the transmission of the radio wave for position detection by the some transmission apparatus 10. As shown in FIG. It is comprised.

The reference clock 12 is for determining the origination time of the above (e) of the position detection radio wave transmitted by the plurality of originating apparatuses 10.

Then, the transmission control apparatus 11 transmits the transmission request signal based on the reference clock 12 to transmit the radio wave for position detection to each of the plurality of transmission apparatuses 10. The signal is transmitted using the signal lines 13-1 to 13-4 together with the respective transmission time of &quot; Accordingly, each of the plurality of transmitting apparatuses 10 transmits a position detecting radio wave when receiving the transmitting request signal from the transmitting control apparatus 11.

Here, it is preferable that these signal lines 13-1-13-4 are comprised so that it may become the same length, and, accordingly, after the transmission control apparatus 11 transmits a transmission request signal and transmission time, a plurality of transmission apparatuses are provided. The time until reaching each of (10) becomes the same in each, and as a result, after the transmission control apparatus 11 transmits a transmission request signal, the transmission apparatus 10 which received the transmission request signal is The time until the radio wave for position detection is sent out is the same for all of the plurality of transmitters 10.

As a result, a slight error between the transmission time determined by the transmission control device 11 and the time at which the plurality of transmission devices 10 actually transmit the transmission time as the radio wave for position detection is determined. It becomes the same between 1-10-4, and as a result, detection of the terminal position by the mobile telephone 20 can be performed with high precision.

Moreover, as shown in FIG. 4, the origin control apparatus 11 is comprised so that a transmission request signal may be transmitted to the some origin apparatus 10-1-10-4 one by one at predetermined time intervals (100 Hz here), Each of the plurality of transmitting apparatuses 10 is configured to sequentially transmit radio waves for position detection when receiving the transmitting request signal from the transmitting control apparatus 11.

In addition, as described above, each of the transmission lines 13-1 to 13-4 has the same length, so that the transmission interval of the position detection radio wave from each transmission apparatus 10 is the transmission control apparatus 11. Becomes equal to a predetermined time interval (100 ms in this case) at which the transmission request signal is transmitted, whereby the terminal position detection processing by the terminal 20 receiving the position detection radio wave can be stably executed at the predetermined time interval. .

As shown in FIG. 5, the terminal 20 includes a receiver 21, a transmitter 22, a detector 23, and a processor 26.

The receiver 21 receives radio waves through an antenna (not shown), and receives radio waves for position detection from at least a plurality of transmitters 10, respectively.

The reception unit 21 may also receive radio waves for the normal processing (receipt of a call or electronic information) of the terminal 20.

The transmitter 22 transmits (sends) radio waves through the antenna, and the transmitter 22 may transmit radio waves for the original processing (transmission of a call or electronic information) of the terminal 20.

When the receiver 21 receives the position detection radio waves transmitted from the plurality of transmitters 10, respectively, the detector 23 receives the plurality of position detection radio waves received by the receiver 21 (here, four). On the basis of this, one's own position (terminal position) is detected.

Moreover, whenever the receiver 21 receives the position detection radio wave from which of the some transmission apparatuses 10, the detection part 23 first checks whether the position detection radio wave was normally received, The inspection is performed using the check sum (information in (f) above) of the radio wave for position detection.

Moreover, the detection part 23 is based on the information (coordinates of the vertices R1 and R2) which shows the usage restriction area R contained in the radio wave for position detection from any of the some transmission apparatus 10, The usage restriction area R is calculated and recognized.

In addition, the detection unit 23 is configured to include a propagation time calculation unit (calculation unit) 24 and a dedicated clock 25.

The propagation time calculation unit 24 each time the reception unit 21 receives the position detection radio wave (more specifically, each time it is confirmed by the detection unit 23 that the position detection radio wave is normally received), Calculate the propagation time from the originating device 10 to the terminal 20 of the radio wave for detecting the position, until the receiver 21 receives the position detecting radio wave from the originating device 10. It is.

Specifically, the propagation time calculation unit 24 is a position detection radio wave based on the transmission time of the position detection radio wave indicated by the position detection radio wave (information in the above (e)) and the dedicated clock 25. The propagation time of the radio wave for position detection is computed by subtracting this reception time from the transmission time which takes this reception time.

And the detection part 23 receives the position detection radio waves from all the transmission apparatuses 10-1-10-4, and the propagation time calculation part 24 calculates the propagation time of all these position detection radio waves. If so, the terminal position is calculated.

That is, the detection part 23 sends the propagation speed of the position detection electric wave from the some transmitter 10 to c, the propagation time calculation part 24 which takes four transmitters 10-1-10-4. the respective front time calculated by sequentially _{t 1, t 2, t 3} , t 4, the time error between the reference clock 12 and the dedicated clock (25) Δt, and four transmitting device (10-1 to 10 -4) each of the originating apparatus positions (information in (c) contained in the position detecting radio wave) in sequence (x ₁ , y ₁ , z ₁ ), (x ₂ , y ₂ , z ₂ ), (x ₃ , y ₃ , z ₃ ) and (x ₄ , y ₄ , z ₄ ), the terminal positions (x, y, z) are calculated based on the following equations (1) to (4).

Thus, the detection part 23 substitutes the information based on the electric wave for position detection from each of the some transmission apparatus 10 into one formula, and solves four simultaneous equations 1-4, Compute the terminal position (x, y, z).

In addition, in said Formula (1)-(4), the error ((DELTA) t) of the time of the reference | standard clock 12 and the exclusive clock 25 is also unknown, and the detection part 23 has four transmitters 10-1-. By producing four simultaneous equations based on the position detection radio waves from 10-4), the terminal positions (x, y, z) in consideration of the error Δt at this time can be calculated, and as a result, The terminal positions (x, y, z) are highly accurate.

In other words, the wireless communication system 1 includes four transmitters 10-1 to 1 so that the detection unit 23 calculates the exact terminal position (x, y, z) based on the time difference Δt. 10-4), the detection unit 23 calculates the terminal position (x, y, z) by solving four simultaneous equations 1-4.

The processing unit 26 operates in a predetermined operation mode according to the management area based on the terminal position of the terminal 20 detected by the detection unit 23, and the determination unit 27 and the operation mode determination unit 28. , And a switching unit 29 is configured.

The determination unit 27 determines whether or not the terminal position detected by the detection unit 23 is in the usage restriction area R, and is used in the radio wave for position detection of the plurality of transmitters 10. Based on the information indicating the restriction area R (information in (d) above), the terminal positions x, y, and z calculated by the detection unit 23 are identified by the two vertices R1 and R2. It is determined whether it is in the area | region R to be made.

The operation mode determination unit 28 determines the predetermined operation mode to be taken by the processing unit 26 according to the determination result by the determination unit 27, and the determination unit 27 determines the terminal position (x, y, When z is determined to be within the usage restriction area R, the processing unit 26 takes a predetermined operation mode for restricting the wireless communication function using the receiving unit 21 and the transmitting unit 22 (particularly the transmitting unit 22). It is determined that the operation mode of. Here, as an operation mode for limiting the radio communication function, an operation mode for stopping the output of the radio wave by the transmitter 22 is determined.

On the other hand, when it is determined by the determination unit 27 that the terminal position (x, y, z) is out of the usage restriction area R, the operation mode determination unit 28 does not restrict the wireless communication function. The operation mode is determined to be the predetermined operation mode that the processing unit 26 will take.

The switching unit 29 switches the operation mode of the processing unit 26 in the operation mode determined by the operation mode determination unit 28.

Here, with reference to the flowcharts (steps S1 to S6) shown in FIG. 6, the operation procedures of the detection unit 23 and the processing unit 26 will be described. First, each of the plurality of transmitters 10 detects the position. If the radio wave for transmitting the position is transmitted (outgoing procedure) and the position detecting radio wave is received from these transmitting apparatuses 10 by the receiving unit 21 (step S1), the detecting unit 23 indicates that the position detecting radio wave has been normally received. Based on the group number (information in (a)) and the device number (information in (b)), which are checked using a checksum (information in (f)) and included in the position detection radio wave From each of the other four originating apparatuses 10-1 to 10-4 of the same group (here, a group consisting of a plurality of originating apparatuses 10-1 to 10-4 in the management area (vehicle 2)). It is judged whether or not the position detection radio wave is received (step S2).

In other words, the detection unit 23 determines whether or not four position detecting radio waves are received from all of the plurality of originating apparatuses 10-1 to 10-4 based on the group number and the device number.

Here, if it has not yet received the position detecting radio waves from all the transmitting apparatuses 10-1 to 10-4 (No route of step S2), the process returns to the standby state before the said step S1, If the position detection electric wave is received from the transmission apparatuses 10-1 to 10-4 (Yes route of step S2), the detection part 23 based on the said Formula (1)-(4), and its own terminal position. Is calculated (step S3; detection procedure).

That is, the detection part 23 confirms that it has received the position detection electric wave from all the transmission apparatuses 10-1-10-4 (in this case, received four position detection radio waves), the terminal of the terminal 20 Calculate the position.

When the terminal position is calculated by the detection unit 23, the determination unit 27 of the processing unit 26 determines whether or not the calculated terminal position of the terminal 20 is within the usage restriction area R. It judges based on the information (information of said (d)) which designates any use restriction | limiting area R in the radio wave for position detection of two dogs (step S4; determination procedure).

Here, when the determination part 27 determines that the terminal position of the terminal 20 is in the use restriction area R (Yes route of step S4), operation | movement which limits the radio communication function by the operation | movement mode determination part 28 is carried out. The mode is determined (operation mode determination procedure), and the switching unit 29 switches the operation of the processing unit 26 to the determined operation mode (here, output propagation stop by the transmitting unit 22) (step S5). Return to the wait state before S1.

On the other hand, if the determination unit 27 determines that the terminal position of the terminal 20 is not within the usage restriction area R (No route in step S4), the operation mode is determined by the operation mode determination unit 28. The switching unit 29 switches the operation of the processing unit 26 to the determined operation mode (here, the normal operation mode in which the transmission unit 22 outputs radio waves) (step S6), and returns to the standby state before the step S1. do.

In addition, if the processing part 26 takes the operation | movement aspect with a limited radio communication function before this process, the process of said step S6 will become the process which switches an operation | movement aspect to normal, but the process part 26 is normal before the said process. If the operation | movement aspect of is taken, the operation | movement aspect cannot be switched by the switching part 29, and it will be maintained as it is.

As described above, according to the radio communication system 1 according to the embodiment of the present invention, a plurality of transmission apparatuses 10 (here, four) that transmit radio waves for position detection are provided in the vehicle 2 which is a management area. When the detection unit 23 of the terminal 20 receives each of the position detecting radio waves from the plurality of originating apparatuses 10, the terminal in the management area based on the received plurality of position detecting radio waves ( The terminal position of the terminal 20 is calculated (detection procedure), and since the processing unit 26 of the terminal 20 operates in the operation mode according to the terminal position (operation procedure), the detection unit 23 performs the terminal 20 (self). The terminal position of itself) can be detected with high accuracy, and the processing part 26 can operate reliably in the desired operation | movement aspect according to a terminal position.

That is, according to the radio communication system 1 as one embodiment of the present invention, since the plurality of transmitting apparatuses 10 are provided in the management area, radio waves do not reach, for example, as described in Patent Document 1 described above. The terminal position of the terminal 20 cannot be detected due to the reason such as not being used, so that the detection unit 23 can reliably detect the terminal position, and as a result, the processing unit of the terminal 20 based on the terminal position. It is possible to reliably manage (limit) the operation of (26).

In addition, the processing unit 26 can operate reliably in a predetermined operation mode according to the terminal position detected by the detection unit 23, that is, use restriction area R for restricting the operation in the management area. It can be set with high precision.

In addition, according to the present wireless communication system 1, since the four transmitting apparatuses 10 are provided, and the detection unit 23 detects the three-dimensional position, it is possible to set the use restriction area R having the height as well as the plane. Can be. Therefore, when the present wireless communication system 1 is applied to a building such as a building, it is possible to set a use restriction area for each floor in consideration of the floor.

In addition, each of the plurality of transmitting devices 10 transmits a radio wave indicating the transmitting device position of the transmitting device 10 and the transmitting time of the corresponding position detecting radio wave as the position detecting radio wave, and the detection unit 23 Since the terminal position is detected based on the originating apparatus positions of the plurality of originating apparatuses 10 and the propagation time based on the originating time, the detection section 23 can detect the terminal position with certainty and with high accuracy.

Moreover, the detection part 23 is based on the error ((DELTA) t) of the time of the reference clock 12 with which the transmission control apparatus 11 is equipped, and the time of the exclusive clock 25 for detecting the reception time of the position detection electric wave, Since the terminal position is detected, the terminal position can be detected with high accuracy.

In addition, the plurality of transmitting apparatuses 10 transmits radio waves (peaks R1 and R2) indicating the use restriction area R as radio waves for position detection, and the processing unit 26 detects by the detecting unit 23. It operates in a predetermined operating mode on the basis of the determined terminal position and the usage restriction area R included in the position detecting radio wave (that is, the usage restriction area R recognized from the vertices R1 and R2). The restriction area R can be set very accurately.

That is, since the originating apparatus 10 designates the use restriction area R in a coordinate point, very fine setting of the use restriction area R is attained.

In addition, in the case where the use restriction area R is a rectangular parallelepiped, the use restriction area R can be easily changed only by changing the coordinates of the vertices R1 and R2, so that the versatility is also very high. For example, the usage restriction area R can be easily changed (released, enlarged, reduced, moved, etc.) by the time zone or the like.

In addition, the determination unit 27 of the processing unit 26 of the terminal 20 determines whether the terminal position calculated by the detection unit 23 is within the usage limit area R included in the position detection radio wave. In addition, since the operation mode determination unit 28 determines the predetermined operation mode according to the determination result of the determination unit 27, the operation unit 26 can be reliably operated in the desired operation mode.

In addition, the plurality of transmitting devices 10 transmits a radio wave indicating a number of a group to which the transmitting device 10 belongs (that is, as information for specifying a management area) as a position detecting radio wave, and the detecting unit 23 ) Determines whether or not radio waves for position detection have been received from a predetermined number (here, four) originating apparatuses 10 in the same group based on the group number of the radio waves for position detection, so that more reliable operation management You can run

In other words, even in a vehicle adjacent to the vehicle 2, a radio wave for position detection indicating a usage restriction area R '(not shown) in a different management area in the vicinity, such as when the wireless communication system 1 is adapted. Is transmitted, and even when the reception section 21 receives a position detecting radio wave indicating the use restriction area R 'of this different management area, the detection section 23 determines the originator based on the group number. On the basis of the position detection radio wave, it is possible to prevent the wrong position detection and the operation management.

In other words, by including the group number in the position detecting radio wave transmitted by the originating apparatus 10, the reception range of the receiving unit 21 of the terminal 20 is not considered, and other groups (that is, different management areas). Transmission apparatus 10 '(not shown) which designates a usage restriction area R' in the system can be arranged adjacent to the transmission apparatus 10, and a plurality of usage restriction areas in one vehicle 2 can be arranged. It is possible to provide (R, R '), or to provide use restriction areas R, R' in a continuous vehicle (management area), respectively.

In addition, when the present wireless communication system 1 is applied to the vehicle 2, the vehicle 2 may be intersected with another tram vehicle, and at that time, from the transmission device 10 'provided in the other vehicle, Although the terminal 20 in the vehicle 2 may receive the position detecting radio wave, even in this case, by including the group number in the position detecting radio wave, error detection of the terminal position and wrong operation management are performed. Work disappears.

Moreover, the some transmitter 10 transmits the electric wave which shows the apparatus number of the said transmitter apparatus 10 as a radio wave for position detection, and the detection part 23 is predetermined based on the apparatus number of the radio wave for position detection. Since it is judged whether or not the position detecting radio waves are received from the number (here, four) of the transmitting apparatuses 10, more reliable operation management can be executed.

[2] Modifications of the Invention

In addition, this invention is not limited to embodiment mentioned above, It can variously deform and implement in the range which does not deviate from the meaning of this invention.

Below, 1st-3rd modified examples of this invention, and another modified example are demonstrated.

[2-1] About the first modification of the present invention

In the above-mentioned embodiment, although the four transmission apparatuses 10 were provided and the detection part 23 was comprised and demonstrated so that a three-dimensional position may be detected as a terminal position, this invention is not limited to this, Example For example, as shown in FIG. 7, three or more (three here) transmission apparatuses 10-1 to 10-3 may be provided and configured to execute a process based on a two-dimensional position.

That is, in the radio communication system 1a according to the first modification of the present invention, the transmitting apparatus 10 transmits two vertices Ra1 and Ra2 as the usage restriction area Ra in the radio wave for position detection. That is, the use restriction area Ra of the two-dimensional rectangle which does not consider the height direction (z-axis direction) is set, and as shown in FIG. 5, the detection part 23a of the terminal 20a has three transmitter devices ( Based on the propagation for position detection from 10), two-dimensional terminal positions (x, y) are calculated using the following equations (5) to (7). In addition, in following formula (5)-7, the code | symbol same as the code | symbol described has shown the same or almost the same thing.

Accordingly, according to the radio communication system 1a as the first modification of the present invention, the same effects as those of the radio communication system 1 according to the embodiment of the present invention described above except that various processes are executed in two dimensions. Can be obtained.

[2-2] About the second modification of the present invention

In addition, in the above-mentioned embodiment, four transmitters 10 are provided, and the detection part 23 makes the terminal 20 based on the time difference (DELTA) t of the time of the basic clock 12 and the dedicated clock 25. Although the example which comprised so that the terminal position of the terminal was detected was demonstrated, this invention is not limited to this, For example, as shown in FIG. 8, three or more (here three) originating apparatuses 10-1- 10-3), the processing may be performed without taking into account such an error Δt of time.

That is, in the wireless communication system 1b as the second modification of the present invention, as shown in FIG. 5, the detection unit 23b of the terminal 20b is based on the position detection radio waves from the three transmitters 10. It is configured to calculate the terminal position (x, y, z) using the following equations (8) to (10). In addition, in following formula (8)-(10), the code | symbol same as the code | symbol described has shown the same or almost the same thing.

Accordingly, according to the radio communication system 1b as the second modification of the present invention, except that such error Δt of time is not taken into account, it is similar to the radio communication system 1 according to the embodiment of the present invention described above. The effect of can be obtained.

In addition, according to the wireless communication system 1b, the number of the transmitting apparatuses 10 can be reduced for the wireless communication system 1 according to the embodiment of the present invention described above, and the hardware resources can be reduced and the cost can be reduced. have.

[2-3] About the third modification of the present invention

In addition, as a 3rd modification of this invention, you may apply the change of the above-mentioned 2nd modification to one Embodiment of this invention mentioned above to the 1st modification mentioned above. That is, as shown in FIG. 9, the radio communication system 1c as a 3rd modification of this invention is provided with two or more (in this case, two) transmission apparatuses 10-1 and 10-2, and is two-dimensional. While the processing based on the position is performed, the processing may be performed without taking into consideration the error? T between the time of the basic clock 12 and the dedicated clock 25.

That is, as shown in FIG. 5, the detection part 23c of the terminal 20c uses a following formula (11) and (12) based on the position detection electric wave from the two transmitters 10, and it locates a terminal. and calculate (x, y). In addition, in following formula (11) and (12), the code | symbol same as the code | symbol described has shown the same or almost the same thing.

Accordingly, according to the radio communication system 1c as the third modification of the present invention, except that such error Δt of time is not taken into account, the same as the radio communication system 1a as the first modification of the present invention described above. The effect of can be obtained.

Further, according to the radio communication system 1c, the number of the transmitting apparatuses 10 can be reduced, and the hardware resources can be reduced and the cost can be reduced for the radio communication system 1a as the first modification of the present invention described above. have.

[2-4] Other Modifications

In addition, in the above-mentioned embodiment, although each of the some transmission apparatus 10 sent out including the use restriction area R (R ', Ra) in the position detection electric wave, it demonstrated, but this invention described this. For example, the terminal 20 (20a to 20c) does not include the use restriction areas R (R ', Ra) in the radio wave for position detection, and the use restriction area R (R) (R) is not included. Ra) may be configured to be maintained or obtained via the Internet or the like.

For example, only one transmitting device 10 of the plurality of transmitting devices 10 may be configured to include the use restriction areas R (R ', Ra) in the position detecting radio wave.

In addition, in the above-mentioned embodiment, although the mobile telephone was mentioned as the communication apparatus 20 (20a-20c) as an example, this invention is not limited to this, As long as the communication apparatus 20 is a terminal which performs wireless communication, do.

In addition, in the above-mentioned embodiment, although the usage restriction area R (R, Ra) which the some originating apparatus 10 designates was mentioned and demonstrated as an example, this invention is not limited to this, One group is mentioned. The transmitter 10 in the system may be configured to designate a plurality of usage restriction areas R (R ', Ra).

In addition, in the above-described embodiment, an example is provided in which the transmission control device 11 is provided, and each of the plurality of transmission devices 10 is controlled by the transmission control device 11 to transmit radio waves for position detection. However, the present invention is not limited to this, but does not include the transmission control apparatus 11, each of the plurality of transmission apparatuses 10 includes a basic clock 12, and each transmission apparatus independently detects a position. You may also be configured to transmit a radio wave.

In addition, in the above-mentioned embodiment, although the operation | movement aspect which stops the output of a radio wave was demonstrated as an example of the predetermined | prescribed operation | movement aspect of the terminal 20 in use restriction area R (R ', Ra), this invention is demonstrated. The present invention is not limited to this, and the predetermined operation mode in the use restriction areas R (R ', Ra) can be set in various ways with respect to all operations that the terminal 20 can take. For example, the start of the application program executed in the processing unit 26 or the prohibition of startup, or the power on / off of the terminal 20 or the transition to the idle state of the terminal 20 is set as a predetermined operation mode. You may also

In addition, in the above-mentioned embodiment, the tank vehicle was described as an example of the structure 2 in the wireless communication systems 1, 1a to 1c. However, the present invention is not limited thereto, but the structure according to the present invention ( 2) may be a structure such as a public transportation system other than a train, a building, or a building.

In addition, as described in the above-described embodiments, the wireless communication systems 1, 1a to 1c of the present invention are not necessarily applied to structures, but may apply outdoor predetermined areas such as amusement parks and theme parks as management areas. It may be.

In addition, the functions as the detection units 23, 23a to 23c, the propagation speed calculator 24, the processing unit 26, the determination unit 27, the operation mode determination unit 28, and the switching unit 29 described above are , A computer (including a central processing unit (CPU), an information processing apparatus, and various terminals in the terminals 20, 20a-20c or the terminals 20, 20a-20c) executes a predetermined application program (operation control program). This may be realized by.

The program is, for example, a flexible disk, CD (CD-ROM, CD-R, CD-RW, etc.), DVD (DVD-ROM, DVD-RAM, DVD-R, DVD-RW, DVD + R, DVD +). RW, etc.) are provided in a form recorded in a computer readable recording medium. In this case, the computer reads out the operation control program from the recording medium, transfers it to an internal storage device or an external storage device, and stores and uses it.

The program may be recorded in a storage device (recording medium) such as a magnetic disk, an optical disk, a magneto-optical disk, or the like, and the program may be provided to the computer through the communication line.

The computer is a concept including hardware and an OS (operating system), and means a hardware operating under the control of the OS. In addition, when the OS is not required and the hardware is operated by the application program alone, the hardware itself corresponds to the computer. The hardware includes at least a microprocessor such as a CPU and means for reading a computer program recorded on a recording medium.

The application program as the operation control program includes a detection unit 23, 23a to 23c, a first half speed calculation unit 24, a processing unit 26, a determination unit 27, and an operation mode determination unit 28 as described above. ) And program code for realizing the function as the switching unit 29. Some of the functions may be implemented by the OS, not the application program.

As the recording medium of the present embodiment, in addition to the above-described flexible disks, CDs, DVDs, magnetic disks, optical disks, magneto-optical disks, IC cards, ROM cartridges, magnetic tapes, punch cards, and internal storage devices (RAM and ROM) of computers. Memory), an external storage device, and the like, and various computer-readable media such as printed matter on which codes such as barcodes are printed.

[3] bookkeeping

(Book 1)

While having a communication device for performing wireless communication,

The communication apparatus is provided with the some transmitter which transmits the position detection electric wave for detecting the position of the said communication apparatus,

The communication device,

A detection unit that detects the position of the communication device based on the plurality of the position detection radio waves received when receiving the position detection radio waves transmitted from the plurality of transmitters, respectively;

And a processing unit operating in a predetermined operation mode according to the management area, based on the position of the communication device detected by the detecting unit.

(Supplementary Note 2)

And each of the plurality of transmitters is configured to transmit radio waves indicating the position of the transmitter and radio waves indicating the transmission time of the position detecting radio wave as the position detecting radio waves,

Propagation time from the detection unit of the communication device to the location of the transmitter of the position detection radio wave and the position detection radio wave based on the origination time after being transmitted from the transmitter and received by the communication device. The wireless communication system according to Appendix 1, wherein the position of the communication device is detected.

(Supplementary Note 3)

Further equipped with a reference clock,

The radio communication system according to Appendix 2, wherein each of the plurality of transmitters determines the transmission time based on the reference clock.

(Appendix 4)

Further equipped with a reference clock,

Three or more said transmitters, each of said three or more transmitters being configured to determine said transmission time based on said reference clock,

While the communication device is provided with a dedicated clock for calculating the propagation time,

The wireless communication system according to Appendix 2, wherein the detection unit of the communication device detects a position of the communication device based on an error of time between the reference clock and the dedicated clock.

(Supplementary Note 5)

Further equipped with a reference clock,

Four or more transmitters, each of the four transmitters or more configured to determine the transmission time based on the reference clock,

While the communication device is provided with a dedicated clock for calculating the propagation time,

The wireless communication system according to Appendix 2, wherein the detection unit of the communication device detects a position of the communication device based on an error of time between the reference clock and the dedicated clock.

(Supplementary Note 6)

A transmission control section for controlling transmission of the radio wave for position detection by the plurality of transmitters,

The transmission control unit is configured to transmit the transmission request signal of the transmission time and the position detection radio wave determined based on the reference clock to each of the plurality of transmitters,

Each of the plurality of transmitters transmits the position detecting radio wave when receiving the transmission request signal from the transmission control unit. The radio communication system according to any one of Supplementary Notes 3 to 5, wherein the plurality of transmitters are used.

(Appendix 7)

The radio communication system according to Appendix 6, wherein the signal lines for transmitting the transmission request signal for connecting each of the plurality of transmitters and the transmission control unit are equal to each other.

(Appendix 8)

The plurality of transmitters are configured to transmit radio waves representing a specific area within the management area as the radio wave for the position detection;

A determination unit that determines whether the position of the communication device detected by the detection unit is within the specific area, and the predetermined operation mode according to a determination result by the determination unit. The wireless communication system according to any one of Supplementary Notes 1 to 7, characterized by comprising an operation mode determining unit for determining.

(Appendix 9)

When the operation mode determination unit of the processing unit of the communication device determines that the determination unit is within the specific area, the operation mode for limiting the radio communication function is determined as the predetermined operation mode. The wireless communication system according to 8.

(Book 10)

Each of the plurality of transmitters is configured to transmit a radio wave representing information in order to specify the management area as the radio wave for position detection, wherein the radio communication according to any one of Appendix 1 to Appendix 9 system.

(Appendix 11)

The structure according to any one of Supplementary Notes 1 to 10, wherein the wireless communication system is applied and the management area is provided with the plurality of transmitters.

(Appendix 12)

A transmission procedure for transmitting a position detecting radio wave from each of the plurality of transmitters to the wireless communication capable communication device to detect the position of the communication device;

A detection procedure for detecting the position of the communication device based on the received plurality of position detection radio waves when the communication device receives the position detection radio waves transmitted from the plurality of transmitters, respectively;

And an operation procedure operating in a predetermined operation mode according to a management area based on the position of the communication device detected in the detection procedure.

(Appendix 13)

The transmission procedure is configured to transmit a radio wave representing a specific area within the management area as the radio wave for the position detection;

The predetermined operation mode is determined in accordance with a determination procedure for determining whether the position of the communication device detected in the detection procedure is within the specific area, and the determination result in the determination procedure. The radio communication method according to Appendix 12, which includes an operation mode determination procedure.

(Book 14)

Connected to a plurality of transmitters which transmit a radio wave for position detection for detecting the position of the communication device to the communication device,

And the plurality of transmitters to control the plurality of transmitters to transmit radio waves indicating a specific area in which the communication apparatus executes a predetermined operation as the radio wave for position detection.

(Supplementary Note 15)

A communication apparatus capable of receiving position detection radio waves transmitted from each of a plurality of transmitters provided in a management area for managing an operation of a communication apparatus,

A detection unit that detects the position of the communication device based on the plurality of the position detection radio waves received when receiving the position detection radio waves transmitted from the plurality of transmitters, respectively;

And a processing unit operating in a predetermined operation mode according to the position of the communication apparatus detected by the detecting unit.

(Appendix 16)

And each of the plurality of transmitters is configured to transmit radio waves indicating the position of the transmitter and radio waves indicating the transmission time of the position detecting radio wave as the position detecting radio waves,

And a calculating section for calculating the propagation time from the transmitter for transmitting the position detecting radio wave to the receiver for receiving the position detecting radio wave based on the transmission time of the position detecting radio wave indicated by the position detecting radio wave. ,

The communication device according to Appendix 15, wherein the detection unit detects the position of the communication device based on the propagation time calculated by the calculation unit and the position of the corresponding transmitter indicated by the position detection radio wave. .

(Appendix 17)

The calculator has a dedicated clock for calculating the propagation time;

The detection unit detects the position of the communication device based on an error between the reference clock for determining the transmission time of the position detection radio wave indicated by the position detection radio wave and the time of the dedicated clock. The communication device according to Appendix 16.

(Supplementary Note 18)

The processing unit,

A determination unit that determines whether or not the position of the communication device detected by the detection unit is within a specific region indicated by the position detection radio wave;

The communication device according to any one of appendices 15 to 17, characterized by comprising an operation mode determination unit that determines the predetermined operation mode in accordance with the determination result by the determination unit.

(Appendix 19)

The plurality of transmitters are configured to transmit radio waves representing a specific area within the management area as the radio wave for the position detection;

An operation mode in which the processing unit determines the predetermined operation mode in accordance with a determination unit that determines whether or not the position of the communication device detected by the detection unit is within the specific area, and the determination result by the determination unit. The communication device according to any one of Supplementary Notes 15 to 17, comprising a determining unit.

(Book 20)

A communication device capable of receiving position detection radio waves transmitted from each of a plurality of transmitters provided in a management area for managing the operation of the communication device, wherein the communication device is located at a location of the communication device (hereinafter referred to as a location of the communication device). A computer-readable recording medium having recorded thereon an operation control program for realizing a function operating in a predetermined operation mode according to the communication device,

The operation control program,

A detection unit that detects the position of the communication device based on the plurality of position detection radio waves received, when receiving the position detection radio waves respectively transmitted from the plurality of transmitters, and

A processing unit operating in a predetermined operation mode according to the position of the communication device detected by the detection unit, wherein the communication device is functioning. A computer-readable recording medium having recorded thereon an operation control program.

Thus, according to this invention, when the detection part of a communication apparatus receives each of the position detection radio waves from a some transmitter, it calculates the terminal position of a communication apparatus based on the received position detection radio waves, Since the processing unit of the communication device operates in a predetermined operation mode according to the management area based on the terminal position detected by the detection unit, the detection unit can surely detect the terminal position of the communication device with high accuracy, and the processing unit is located at the terminal position. Operation can be performed reliably in the desired operation mode according to the above.

Further, according to the present invention, by providing the transmitter in the management area, the terminal position of the communication device cannot be detected due to the reason that radio waves do not reach, for example, as described in Patent Document 1 described above. Therefore, the detection unit can reliably detect the terminal position in the management area, and as a result, it becomes possible to reliably manage (limit) the operation of the processing unit of the communication apparatus based on the terminal position.

Further, according to the present invention, the detection unit can reliably detect the terminal position, and based on the terminal position, the processing unit can reliably operate in a predetermined operation aspect, so that the use of limiting the operation in the management area is used. The restriction area can be set with high accuracy.

Claims (5)

While having a communication device for performing wireless communication, The communication device is provided with a plurality of transmitters for transmitting a position detecting radio wave for detecting the position of the communication device, The communication device, A detection unit that detects the position of the communication device based on the plurality of the position detection radio waves received when receiving the position detection radio waves transmitted from the plurality of transmitters, respectively; A processing unit that operates in a predetermined operation mode according to a management area based on the position of the communication device detected by the detection unit. Wireless communication system comprising a. The method of claim 1, The plurality of transmitters are configured to transmit radio waves representing a specific area within the management area as the radio wave for position detection, The processing unit of the communication device, A determination unit that determines whether the position of the communication device detected by the detection unit is within the specific area, and an operation mode determination unit that determines the predetermined operation mode in accordance with a determination result by the determination unit; Wireless communication system, characterized in that configured. A transmission procedure for transmitting a position detecting radio wave from each of the plurality of transmitters to the wireless communication capable communication device to detect the position of the communication device; A detection procedure for detecting the position of the communication device based on the received plurality of position detection radio waves when the communication device receives the position detection radio waves transmitted from the plurality of transmitters, respectively; Operation procedure operating in a predetermined operation mode according to a management area based on the position of the communication device detected in the detection procedure Wireless communication method comprising a. delete A communication apparatus capable of receiving position detection radio waves transmitted from each of a plurality of transmitters provided in a management area for managing an operation of a communication apparatus, A detection unit that detects the position of the communication device based on the plurality of the position detection radio waves received when receiving the position detection radio waves transmitted from the plurality of transmitters, respectively; A processing unit operating in a predetermined operation mode according to the position of the communication device detected by the detection unit; A communication device, comprising: a configuration.

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