JP2008187435A - Radio wave control system and method, and radio wave transmitter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a radio wave control system for reducing any influence on a device electromagnetically interfered, and for reducing any influence on a service which is currently used. <P>SOLUTION: A control signal transmitter 12 transmits a control signal showing that a device 13 is electromagnetically interfered. When receiving the control signal, a radio wave transmitter 11 calculates a direction to the location of the control signal transmitter 12 as an origin and a distance with the control signal transmitter 12. The radio wave transmitter 11 controls the directivity of an output radio wave so that radio wave intensity in the direction to the location of the control signal transmitter 12 can be weakened. The radio wave transmitter 11 outputs a radio wave except the direction to the location of the control signal transmitter 12, so that it is possible to prevent the malfunction of the device 13. Also, the intensity of the output radio wave of a specific direction is decreased, so that it is possible to reduce any influence on a service which is currently used in comparison with when the output radio wave is uniformly weakened to all directions. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a radio wave control system and method, and more particularly, to a radio wave control system and method capable of preventing malfunction of a device affected by radio waves output from other devices. The present invention also relates to a radio wave transmitter used in such a radio wave control system and method.

  Portable devices that transmit radio waves, such as mobile phones and game devices, are becoming popular. Portable radio wave transmitters are convenient because they can make phone calls, etc., regardless of location, and the range of use is expanding. However, it has been pointed out that the radio waves transmitted by radio wave transmitters may cause damage due to electromagnetic interference on medical devices and precision machines represented by pacemakers, and there are situations where it is not desirable to use radio wave transmitters. .

  As a technique for reducing the influence on a device (hereinafter, also referred to as an electromagnetic interference damage device) that is damaged by electromagnetic waves due to radio waves output from the radio wave transmitting device, there is a technology described in Patent Document 1. In Patent Document 1, a specific radio wave is transmitted from the electromagnetic interference damage device, and when the radio wave transmitting device receives the specific radio wave, the radio wave transmission device stops the radio wave transmission function. Thereby, malfunction of the electromagnetic interference damage apparatus can be prevented.

  As another technique capable of reducing the influence on the electromagnetic interference damage device, there is a technique described in Patent Document 2. In this technique, a pacemaker measures position information of its own device and transmits it. The cellular phone extracts the position information of the pacemaker from the signal received from the pacemaker, and calculates the distance from the pacemaker from this position information and the position of the own device. If the distance between the mobile phone and the pacemaker is within a predetermined distance, transmission of radio waves is stopped. Patent Document 2 also describes that a user of a mobile phone is warned when the distance between the mobile phone and the pacemaker is within a predetermined distance.

  Patent Document 3 describes a technique for weakening an output radio wave of a mobile phone in a specific area where an electromagnetic interference damage device exists. In this technology, the strength of the output radio wave is variable in the mobile phone, and the output radio wave “strong” and the output radio wave “weak” can be switched by a changeover switch. In Patent Document 3, a transmitter that transmits a weak radio signal is installed in a specific area, and when the mobile phone receives a radio signal from the transmitter, the output radio wave is switched to “weak”. Is described.

JP 2005-51820 A JP 2003-189359 A JP-A-11-150750

  In the techniques described in Patent Documents 1 and 2, malfunction of the electromagnetic interference damage device can be prevented by stopping the radio wave. However, when the radio wave is stopped, calls and the like are uniformly regulated, and for example, it becomes impossible to contact the police / emergency, so a practical problem remains. Also, if you have a radio transmission device with a positioning function for your child and are using the location service, the radio transmission device will be out of service area by stopping the radio wave and you will not be able to use the service. It becomes. In this case, there is a possibility of becoming “out of range” at a place that would not be “out of range”, which may cause misidentification such as an accident.

  In Patent Document 3, since the output radio wave is switched to “weak” instead of suddenly stopping the radio wave in a specific area, it is possible to continue communication using a mobile phone. However, even when the output radio wave is set to “Weak”, if the distance between the electromagnetic interference damage device and the mobile phone is short, the electromagnetic interference damage device may be affected by the radio wave transmitted from the mobile phone, and errors due to electromagnetic interference may occur. Operation may occur. In addition, when the radio wave output intensity of the mobile phone is weakened in a specific area, there is a problem that communication between the mobile phone and the base station is interrupted and the use of the service may be stopped.

  The present invention provides a radio wave control system, method, and radio wave transmitter that can solve the above-described problems of the prior art, reduce the influence on the electromagnetic interference damage device as much as possible, and reduce the influence on the currently used service. The purpose is to provide.

  To achieve the above object, the radio wave control system of the present invention includes a control signal transmission device that transmits a control signal indicating that radio wave irradiation is not preferable, and a control signal that is a transmission source of the control signal when the control signal is received. And a radio wave transmission device that calculates a direction in which the transmission device exists and outputs a radio wave while avoiding the calculated direction in which the control signal transmission device exists.

  In the radio wave control method of the present invention, a control signal transmitting device transmits a control signal indicating that radio wave irradiation is not preferable, a radio wave transmitting device receives the control signal, and the radio wave transmitting device Based on the received control signal, the step of calculating the direction in which the control signal transmission device that is the transmission source of the control signal is present, and the radio wave transmitting device so as to avoid the direction in which the calculated control signal transmission device is present And a step of controlling the output radio wave.

  In the radio wave control system and method of the present invention, when the radio wave transmitting device receives the control signal transmitted by the control signal transmission device, it calculates the direction in which the control signal transmission device of the control signal transmission source is present and avoids the direction. To control the output radio wave. In the control of the output radio wave, for example, the directivity of the radio wave is controlled so that the output radio wave is weakened in the direction in which the control signal transmission device exists. For base stations that exist in a direction different from the direction near the control signal transmission device, communication can be performed with radio waves having the same strength as before output radio wave control, and radio waves can be stopped or output radio waves can be uniformly output. Compared with the conventional technology that weakens the service, the impact on the services currently used can be reduced.

  In the radio wave control system of the present invention, the radio wave transmission device may adopt a configuration in which the calculated direction in which the control signal transmission device exists is displayed on a display screen when receiving the control signal. In this case, the user can know in which direction there is a device or area where radio wave transmission is not preferable, and by moving so as to avoid that direction, the radio wave transmission device can continue communication and radio wave transmission It is possible to avoid a situation where devices and areas that are not preferred are exposed to radio waves.

  In the radio wave control system of the present invention, the control signal transmission device is installed corresponding to an electromagnetic interference damage device that receives electromagnetic interference due to the radio wave output from the radio wave transmission device, and the radio wave transmission device includes the control signal. When the signal is received, it is possible to adopt a configuration for controlling the output radio wave so as to avoid radio wave irradiation to the electromagnetic interference damage apparatus. The control signal transmission device is installed in the vicinity of the electromagnetic interference damage device. Or you may incorporate in an electromagnetic interference damage apparatus. When the radio wave transmission device outputs the radio wave by avoiding the control signal transmission device, it is possible to avoid the radio wave irradiation to the electromagnetic interference damage device corresponding to the control signal transmission device. It is possible to prevent malfunctions caused by radio waves.

  In the radio wave control system of the present invention, the control signal includes at least one of the type of the electromagnetic interference damage device, the intensity of the irradiation radio wave allowed for the electromagnetic interference damage device, and the allowable approach distance. Configuration can be adopted. For example, when the control signal includes the type of the electromagnetic interference damage device, the radio wave transmission device decodes the control signal, identifies the type of the electromagnetic interference damage device, and indicates it to the user. It is possible to know whether there are any electromagnetic interference damage devices. In addition, when the control signal includes an allowable intensity of the radiated radio wave, the radio wave control device controls the output radio wave so that the radio wave radiated to the electromagnetic interference damaging device falls within the allowable value range. It is possible to prevent malfunction of the damage device. When the control signal includes information regarding an allowable approach distance, the user can know the accessible distance by indicating this to the user. Further, when the distance between the radio wave transmission device and the electromagnetic interference damage device is within an allowable approach distance, the radio wave transmission device may stop the output radio wave.

  In the radio wave control system of the present invention, the control signal transmitting device is installed corresponding to an area where radio wave irradiation is not preferable, and when the radio wave transmitting device receives the control signal, the radio wave irradiation area is not preferable. In order to avoid this, it is possible to employ a configuration for controlling the output radio wave. In this case, it is possible to adopt a configuration in which the control signal includes at least one of the type of the area where radio wave irradiation is not preferable and the intensity of the irradiation radio wave allowed in the area where radio wave irradiation is not preferable. For example, a control signal transmission device is installed corresponding to a manner area such as a hospital or a train. By doing in this way, the radio wave irradiation with respect to the area corresponding to a control signal transmitter can be avoided, and the malfunction of the electromagnetic interference damage apparatus which exists in the area can be prevented.

  In the radio wave control system of the present invention, when the radio wave transmission device receives the control signal, the intensity of the radio wave radiated in the direction in which the control signal transmission device exists irradiates in the direction in which the control signal transmission device does not exist. A configuration in which the directivity of the output radio wave is controlled so as to be weaker than the radio wave intensity can be employed. For example, when the control signal transmitter is located in the northeast direction as viewed from the radio transmitter, the radio wave directivity is controlled so that the radio field intensity in the northeast and southwest directions is weaker than the radio field intensity in the northwest and southeast directions. To do. By doing in this way, an electromagnetic wave can be weakened about a specific direction. For example, an array antenna can be used to control the directivity of the output radio wave.

  The radio wave transmission device according to the present invention calculates a direction in which a control signal receiving unit that receives a control signal indicating that radio wave irradiation is not preferable and a transmission source device of the control signal exist based on the received control signal. And a control unit that controls the radio wave transmission unit so as to output a radio wave while avoiding a direction in which the transmission source device of the calculated control signal exists.

  In the radio wave transmitter according to the aspect of the invention, the control signal receiving unit receives the control signal through a plurality of antennas, and the position calculation unit is configured to control the control signal based on the strength and phase of the control signal at the plurality of antennas. A configuration for calculating the direction of the signal transmission source device can be employed.

  In the radio wave transmitter of the present invention, when the position calculation unit calculates the direction of the transmission source device of the control signal, the control unit displays the direction in which the calculated transmission source device of the control signal exists on the display screen. The structure displayed in

  In the radio wave transmission device according to the aspect of the invention, the control unit may be configured such that the intensity of the radio wave applied in the direction in which the control signal transmission source device exists is weaker than the intensity of the radio wave applied in the direction in which the control signal transmission device does not exist. A configuration for controlling the directivity of the output radio wave can be adopted.

  In the radio wave control system and method of the present invention, when the radio wave transmission device receives the control signal transmitted by the control signal transmission device, the direction of the control signal transmission device of the transmission source is calculated and the direction is avoided. Controls the output radio wave. In this way, while avoiding radio wave irradiation to devices (electromagnetic interference damage devices) and areas, communication with devices such as base stations existing in other directions can be continued. It is possible to reduce both the impact on the service and the reduction of the impact on the currently used service.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 shows the configuration of a radio wave control system according to an embodiment of the present invention. The radio wave control system 10 includes a radio wave transmission device 11 and a control signal transmission device 12. The radio wave transmitter 11 is a device that transmits radio waves, such as a mobile phone or a portable game device having a wireless communication function. The radio wave transmission device 11 uses radio waves that may affect electronic devices (electromagnetic interference damage device 13) such as medical devices as communication means.

  The control signal transmission device 12 transmits a control signal indicating that there is an electromagnetic interference damage device and radio wave irradiation is not preferable. For the transmission of this control signal, a communication means that does not affect the electromagnetic interference damage device 13, for example, a communication means that is physically different from a radio wave of a specific frequency that does not cause electromagnetic interference or a radio wave such as a sound wave and an infrared ray. Use. The control signal transmission device 12 can include information such as the type of the electromagnetic interference damage device 13, the allowable radio wave intensity, and the allowable approach distance in the control signal. When receiving the control signal transmitted from the control signal transmission device 12, the radio wave transmission device 11 controls the output radio wave so that the electromagnetic interference damage device 13 is not irradiated with a strong radio wave.

  FIG. 2 shows the configuration of the radio wave transmitter 11. The radio wave transmitter 11 includes a control signal receiver 21, a position calculator 22, a controller 23, and a radio wave transmitter 24. The control signal receiver 21 receives the control signal transmitted by the control signal transmitter 12. The position calculation unit 22 calculates the direction in which the control signal transmission device 12 exists and the distance to the control signal transmission device 12 based on the received control signal. In this calculation, for example, the control signal receiving unit 21 receives a control signal by a plurality of antennas, and checks the reception intensity and phase of the control signal at each antenna, thereby controlling the control signal transmitting apparatus that is the transmission source of the control signal. The direction in which 12 is present is estimated (calculated). Further, for example, the output when the control signal transmitting device 12 transmits the control signal is set to a predetermined output, and the distance from the control signal transmitting device is determined based on the attenuation amount of the control signal received by the control signal receiving unit 21. Calculate

  The radio wave transmission unit 24 outputs radio waves from the antenna 25. As the antenna 25, an antenna capable of giving directivity to the output radio wave intensity is used. Specifically, an array antenna can be used as the antenna 25. The antenna 25 can also be used for receiving control signals. The control unit 23 controls the radio wave transmission unit 24 based on the direction and position calculated by the position calculation unit 22 and is output from the antenna 25 so that strong electromagnetic waves are not irradiated to the electromagnetic interference damage device 13. Controls the directivity and intensity of radio waves. The controller 23 prevents the electromagnetic interference damage device 13 from malfunctioning by preventing the radio wave transmission device 11 from irradiating the electromagnetic interference damage device 13 with a strong radio wave.

  FIG. 3 shows an operation procedure of the radio wave control system 10. A procedure for reducing the intensity of the radio wave transmitted by the radio wave transmitter 11 irradiated to the electromagnetic interference damage device 13 will be described with reference to FIG. The control signal transmission device 12 starts transmission of a control signal when the electromagnetic interference damage device 13 is exposed to a radio wave that may be affected (step S1). For example, when the radio signal transmitted by the radio wave transmission device 11 is detected, the control signal transmission device 12 starts transmission of the control signal. Alternatively, the user of the electromagnetic interference damage device 13 may manually start transmission of the control signal, or the control signal transmission device 12 may constantly transmit the control signal.

  The radio wave transmitter 11 receives the control signal transmitted from the control signal transmitter 12 by the control signal receiver 21, and recognizes that the electromagnetic interference damage device 13 exists in the surroundings (step S2). The position calculation unit 22 calculates the direction in which the control signal transmission device 12 exists and the distance to the control signal transmission device 12 based on the reception status of the control signal in the control signal reception unit 21 (step S3). ). Based on the direction and distance calculated by the position calculation unit 22, the control unit 23 controls the radio wave transmission unit 24 so as to avoid radio wave irradiation to the electromagnetic interference damage device 13 (step S4). Further, a warning is displayed on a screen display (not shown) indicating the direction in which the electromagnetic interference damage device 13 exists (step S5), and the user is voluntarily guided to move away from the area where the electromagnetic interference damage device 13 exists.

  In step S4, when the control signal includes information such as the type of electromagnetic interference damage device, the allowable radio wave intensity, and the allowable approach distance, the control unit 23 refers to the information and refers to the antenna 25. Determine the strength of the radio wave output. For example, when the control signal transmission device 12 exists in the northeast direction as viewed from the radio wave transmission device 11, the radio wave transmission unit 24 is controlled to increase the radio wave intensity in the northwest and southeast directions, and to the northeast and southwest. The directivity of the radio wave output from the antenna 25 is controlled so that the radio wave intensity in the direction is weakened so that the radio wave intensity applied to the electromagnetic interference damage device 13 is less than the allowable amount.

  In this embodiment, the control signal transmission device 12 transmits a control signal indicating that the electromagnetic interference damage device 13 exists, and when the radio wave transmission device 11 receives the control signal, the electromagnetic interference damage device 13 (control signal transmission device). 12) is calculated, and the directivity and intensity of the transmission radio wave are controlled so as to avoid the radio wave irradiation to the electromagnetic interference damage apparatus 13. By doing so, it is not preferable to transmit a strong radio wave, the radio wave intensity in the direction where the electromagnetic interference damage device 13 is present can be weakened, and the influence on the electromagnetic interference damage device 13 can be suppressed. .

  For example, a pacemaker is considered as the electromagnetic interference damage device 13. In this case, the user of the pacemaker can control the radio wave directed toward him / her by carrying the control signal transmission device 12 and can avoid radio wave irradiation to the pacemaker. Further, instead of arranging the control signal transmission device 12 corresponding to each electromagnetic interference damage device 13, it is also possible to arrange the control signal transmission device 12 corresponding to a manner area such as an area in a hospital or a priority seat in a train. . In that case, radio waves directed to the area can be controlled, and radio wave irradiation to the electromagnetic interference damage apparatus 13 existing in the area can be avoided.

  In the prior art, when a signal corresponding to a control signal is received, if the radio field intensity is uniformly reduced in all directions, the radio wave reaches a base station or the like that exists in a direction where the electromagnetic interference damage device 13 does not exist. It is possible that communication will be interrupted. In this embodiment, since the directivity of the output radio wave is controlled and strong radio wave intensity can be maintained in the direction where the electromagnetic interference damage device 13 does not exist, communication with the base station existing in that direction is not interrupted. For this reason, it is possible to continue communication and service while avoiding radio wave irradiation to the electromagnetic interference damage device 13, and it is possible to avoid a situation in which the service becomes unusable by approaching the electromagnetic interference damage device 13.

  Further, in the present embodiment, the direction in which the control signal transmission device 12 exists and the distance between the control signal transmission device 12 are calculated, and this is displayed on the display screen to damage the electromagnetic interference to the user. An approach to the device 13 is warned. Thereby, the user can grasp | ascertain the position of the apparatus which does not like the electromagnetic interference which exists in an own periphery. By viewing the warning screen, the user can urge the user to stop using the radio wave voluntarily or evacuate from the area where the electromagnetic interference damage device 13 is present, thereby avoiding access to the electromagnetic interference damage device 13. can do.

  Note that, since the traveling direction of the radio wave transmission device 11 changes as the user moves, the direction of the control signal transmission device 12 viewed from the radio wave transmission device 11 may change as the user moves. In such a case, the control signal is continuously received, the direction of the control signal transmission device is calculated each time, and the output radio wave is controlled so as to avoid the direction in which the control signal transmission device 12 exists. . Further, a configuration may be adopted in which a gyro or the like is provided in the radio wave transmission device 11 so as to grasp the direction in which the radio wave transmission device 11 faces and to control the output radio wave so as to avoid the direction in which the control signal transmission device 12 exists.

  As mentioned above, although this invention was demonstrated based on the suitable embodiment, the electromagnetic wave control system of this invention, a method, and an electromagnetic wave transmission apparatus are not limited only to the said embodiment, The structure of the said embodiment To which various modifications and changes are made within the scope of the present invention.

The block diagram which shows the structure of the electromagnetic wave control system of one Embodiment of this invention. The block diagram which shows the structure of a radio wave transmission apparatus. The flowchart which shows the operation | movement procedure of an electromagnetic wave control system.

Explanation of symbols

10: Radio wave control system 11: Radio wave transmitter 12: Control signal transmitter 13: Electromagnetic interference damage device 21: Control signal receiver 22: Position calculator 23: Controller 24: Radio transmitter 25: Antenna

Claims (12)

A control signal transmission device for transmitting a control signal indicating that radio wave irradiation is not preferable;
When receiving the control signal, calculate the direction in which the control signal transmission device that is the transmission source of the control signal exists, avoid the direction in which the calculated control signal transmission device exists, and A radio wave control system comprising:   The radio wave control system according to claim 1, wherein when the radio wave transmission device receives the control signal, the radio wave transmission device displays a direction in which the calculated control signal transmission device exists on a display screen.   The control signal transmission device is installed in correspondence with an electromagnetic interference damage device that receives electromagnetic interference due to radio waves output by the radio wave transmission device. When the radio wave transmission device receives the control signal, the electromagnetic interference damage The radio wave control system according to claim 1, wherein the output radio wave is controlled so as to avoid radio wave irradiation to the apparatus.   The radio wave according to claim 3, wherein the control signal includes at least one of a type of the electromagnetic interference damage device, an intensity of an irradiation radio wave allowed for the electromagnetic interference damage device, and an allowable approach distance. Control system.   The control signal transmission device is installed corresponding to an area where radio wave irradiation is not preferable, and when the radio wave transmission device receives the control signal, the control signal transmission device transmits an output radio wave so as to avoid the area where radio wave irradiation is not preferable. The radio wave control system according to claim 1, wherein the radio wave control system is controlled.   6. The radio wave control system according to claim 5, wherein the control signal includes at least one of a type of an area where radio wave irradiation is not preferable and an intensity of an irradiation radio wave allowed in the area where radio wave irradiation is not preferable. .   When the radio wave transmission device receives the control signal, the intensity of the radio wave radiated in the direction in which the control signal transmission apparatus exists is weaker than the intensity of the radio wave radiated in the direction in which the control signal transmission apparatus does not exist. The radio wave control system according to claim 1, wherein the directivity of the output radio wave is controlled. A control signal receiving unit for receiving a control signal indicating that radio wave irradiation is not preferable;
Based on the received control signal, a position calculation unit that calculates a direction in which the transmission source device of the control signal exists;
A radio wave transmission apparatus comprising: a control unit that controls a radio wave transmission unit so that a radio wave is output while avoiding a direction in which the transmission source device of the calculated control signal exists.   The control signal reception unit receives the control signal by a plurality of antennas, and the position calculation unit determines the direction of the transmission source device of the control signal based on the strength and phase of the control signal at the plurality of antennas. The radio wave transmission device according to claim 8, wherein the radio wave transmission device is calculated.   The control unit displays the direction in which the calculated transmission source device of the control signal exists on a display screen when the position calculation unit calculates the direction of the transmission source device of the control signal. 9. The radio wave transmission device according to 9.   The control unit directs the output radio wave so that the intensity of the radio wave radiated in the direction in which the control signal transmission source apparatus exists is weaker than the intensity of the radio wave radiated in the direction in which the control signal transmission apparatus does not exist. The radio wave transmission device according to any one of claims 8 to 10, which controls A step of transmitting a control signal indicating that radio wave irradiation is not preferable from the control signal transmitting device;
A radio wave transmitting device receiving the control signal;
The radio wave transmitting device, based on the received control signal, calculating a direction in which the control signal transmission device of the transmission source of the control signal exists;
And a step of controlling the output radio wave so as to avoid the direction in which the calculated control signal transmission device exists.

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