JP2014187595A - Relay device and radio communication system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To effectively limit change of an installation location.SOLUTION: A relay device for relaying a radio signal between a mobile terminal and base station device comprises: a control unit for controlling operation of the relay device; a nonvolatile storage unit for storing data used by the control unit; a first radio unit for communicating with the mobile terminal; a second radio unit for communicating with the base station device; and a third radio unit for acquiring positional information from the mobile terminal. The control unit compares the acquired positional information with positional information stored in the nonvolatile storage unit; and stops communication by the first and second radio units, when difference between both positional information exceeds a predetermined threshold.

Description

  The present invention relates to a wireless relay device.

  A base station of a mobile phone system is monitored and controlled by a telecommunications monitoring system, but in recent years, a stand-alone and low-cost wireless relay device that is not monitored and controlled by a telecommunications monitoring system is installed.

  Since such a stand-alone wireless relay device is small and light, the user can move the wireless relay device and change its installation location. However, if the user moves the wireless relay device without permission, there is a possibility that radio waves other than those permitted are relayed. For this reason, the radio relay apparatus receives the area identification information included in the downlink transmitted by the base station apparatus, and relays only the signal of the predetermined area identification information. Since the wireless relay device relays only the signal of the predetermined area identification information, it is possible to prevent unnecessary waves from being emitted. This eliminates the need for monitoring and control by the remote communication monitoring system, and improves the manageability by the telecommunications carrier.

JP 2008-301086 A JP 2008-160346 A

  The above-described conventional wireless relay device relays only the signal of predetermined area identification information, and has the following problems.

  The first problem is that the area identification information included in the downlink transmitted by the base station apparatus is changed when the arrangement of the base station is changed or added after the radio relay apparatus is installed or the area identification information is expanded. Since it is changed, the wireless relay device determines that the installation location has changed, and stops its operation.

  The second problem is that if the same area identification information is used in a wide area, the movement of the wireless relay device cannot be detected in the area using the same area identification information, and the user can change the installation location. Unable to restrict location changes.

  The third problem is that when the wireless relay device stops operating, it is necessary to notify the user by a display device (LED, LCD, etc.) provided in the wireless relay device.

  For this reason, there is a need for a wireless relay device that can effectively limit the change of the installation location by the user without controlling on / off of the relay function only by predetermined area identification information. There is also a need for a wireless relay device that can easily notify the operating state.

  A typical example of the invention disclosed in the present application is as follows. That is, a relay device that relays a radio signal between a mobile terminal and a base station device, a control unit that controls the operation of the relay device, and a non-volatile storage unit that stores data used by the control unit; A first wireless unit that communicates with the mobile terminal; a second wireless unit that communicates with the base station apparatus; and a third wireless unit that acquires position information from the mobile terminal, the control unit Compares the acquired position information with the position information stored in the non-volatile storage unit, and if the difference between the position information exceeds a predetermined threshold, the first wireless unit and the second wireless unit Stop communication by.

  According to a typical embodiment of the present invention, it is possible to prevent unauthorized installation location movement of a wireless relay device by a user, and improvement in management performance of a wireless operator can be expected. Problems, configurations, and effects other than those described above will become apparent from the description of the following embodiments.

It is a block diagram which shows the structure of the radio relay apparatus of a present Example. It is a block diagram which shows the structure of the portable terminal of a present Example. It is a figure explaining the method with which the wireless relay apparatus of a present Example controls a relay function. It is a sequence diagram which shows transmission / reception of the positional information between the portable terminal of a present Example, and a radio relay apparatus. It is a flowchart of the process performed by the control part of the wireless relay apparatus of a present Example. It is a figure explaining the example of the alarm which the radio relay apparatus of a present Example transmits to a portable terminal.

  First, the outline | summary of the Example of this invention is demonstrated.

  In an embodiment of the present invention, a wireless relay device is located in order to detect whether the installation location of the wireless relay device has actually changed without stopping signal relaying even if the base station is changed or added. The change of the installation location is determined by acquiring the position information of the mobile terminal without using the area identification information indicating the area to be performed. If the location information acquired from the portable terminal is the same, even if the area identification information is changed, it is determined that the wireless relay device is not moving and operates without stopping signal relaying. On the other hand, if the position information acquired from the mobile terminal is different from the previous one, it is determined that the wireless relay device has moved, and signal relay is stopped.

  As a method for acquiring position information from a mobile terminal, for example, Bluetooth (Bluetooth is a registered trademark, the same applies hereinafter) or NFC used in near field communication can be used. Note that the communication between the wireless relay device and the mobile terminal is not limited to that described above, and any system different from the mobile phone system may be used.

  When the power is turned on at the time of installation of the wireless relay device, in the initial operation, the wireless relay device acquires the area identification information included in the downlink from the base station, and then uses the short-range communication to obtain the current position from the mobile terminal. Information is acquired, and the acquired position information is stored in a memory. Thereafter, the wireless relay device relays communication between the mobile terminal and the base station. When a trigger is generated in the wireless relay device, for example, when the power of the wireless relay device is turned on, the initial operation is executed again to control the operation of the wireless relay device using the area identification information and the position information. When the area identification information is changed, the position information of the mobile phone is acquired again and compared with the position information stored in the memory.

  When the power is turned on or when a change in the area identification information is detected, it is determined by the following method whether the installation location has moved. The wireless relay device compares the position information stored in the memory with the position information acquired from the mobile terminal immediately after the power is turned on. If the position information is different, the base station providing the area has changed, that is, the wireless relay It is determined that the device has moved, and after transmitting an alarm to the mobile terminal by short-range communication, transmission of radio waves is stopped. The user confirms the information transmitted from the wireless relay device received by the near field communication, and requests maintenance from the communication carrier that operates the wireless relay device. As a result, the communication carrier can manage the wireless relay device.

  Next, examples of the present invention will be described in detail.

  A wireless relay device 11 according to an embodiment of the present invention is a device that relays a wireless signal between a base station (BS) and a mobile terminal (MS) 12 in a W-CDMA and CDMA wireless communication system. The wireless relay device 11 of this embodiment is a stand-alone device that is not controlled by the remote communication monitoring system, and acquires position information from the GPS system using a short-range wireless communication that has already been put into practical use. Then, the wireless relay device 11 is controlled.

  Note that the mobile phone system targeted by the wireless relay device 11 employs, for example, the W-CDMA system and the CDMA system, but may employ other systems such as LTE. Further, the short-range wireless communication targeted by the wireless relay device 11 is, for example, Bluetooth or NFC, but other methods may be used.

  FIG. 1A is a block diagram illustrating a configuration of the wireless relay device 11 according to the present embodiment.

  The wireless relay device 11 includes a base station radio unit 111, an antenna 112, a device monitoring unit 113, a storage unit 114, a control unit 115, a short-range communication radio unit 116, an antenna 117, a terminal radio unit 118, and an antenna 119. .

  The base station radio unit 111 modulates and demodulates a radio signal transmitted to and received from the base station via the antenna 112. The antenna 112 sends a signal received from the base station to the base station radio unit 111, and radiates the radio signal for the base station generated by the base station radio unit 111 into space.

  The device monitoring unit 113 monitors the overall state of the wireless relay device 11 and transmits abnormality alarm information to the control unit 115 when an abnormality is detected. The storage unit 114 is, for example, a non-volatile memory, and holds data (for example, position information, alarm history, and area identification information) necessary for the operation of the wireless relay device 11.

  The control unit 115 is a processor that executes a predetermined program, for example, and controls the entire wireless relay device 11 and controls reading and writing of data in the storage unit 114. In addition, the control unit 115 receives alarm information from the device monitoring unit 113. The control unit 115 controls transmission / reception of radio signals by the short-range communication radio unit 116, the base station radio unit 111, and the terminal radio unit 118.

  The short-range communication wireless unit 116 is a wireless transceiver for performing wireless communication by short-range communication. The short-range communication wireless unit 116 modulates and demodulates a short-range communication radio signal transmitted and received via the antenna 117, acquires position information from the portable terminal 12 via the antenna 117, and acquires the acquired position information. The alarm information from the control unit 115 is transmitted to the terminal wirelessly. The antenna 117 sends a signal received from the portable terminal 12 by short-range wireless communication to the short-range wireless communication wireless unit 116, and radiates a wireless signal for the terminal generated by the short-range wireless communication wireless unit 116 into space.

  The terminal radio unit 118 modulates and demodulates a radio signal transmitted to and received from the mobile terminal 12 via the antenna 119. The antenna 119 sends a signal received from the terminal to the terminal radio unit 118, and radiates the terminal radio signal generated by the terminal radio unit 118 into space.

  FIG. 1B is a block diagram illustrating the configuration of the mobile terminal 12 according to the present embodiment.

  The mobile terminal 12 is a wireless communication device that performs wireless communication with the wireless relay device 11 or directly performs wireless communication with a base station. The mobile terminal 12 includes a GPS receiving unit 121, a base station wireless communication unit 122, an antenna 123, a storage unit 124, an operation unit 125, a control unit 126, a display unit 127, a short-range communication wireless unit 128, and an antenna 129.

  The GPS receiver 121 receives a GPS signal and sends it to the controller 126. The storage unit 124 holds the position information acquired from the GPS receiving unit 121. The base station radio communication unit 122 modulates and demodulates a radio signal transmitted and received via the antenna 123. The antenna 123 sends the received signal to the GPS receiver 121 or the base station radio unit 122, and radiates the radio signal for the base station generated by the base station radio unit 122 to the space.

  The storage unit 124, for example, a nonvolatile memory, holds data necessary for the operation of the mobile terminal 12. The operation unit 125 is, for example, a touch panel or a keyboard, and receives input from the user.

  The control unit 126 is a processor that executes a predetermined program, for example, and controls the entire mobile terminal 12 and controls reading and writing of data in the storage unit 124. In addition, the control unit 126 compares the position information held in the storage unit 124 with the information on the current position of the mobile terminal 12 received by the short-range communication wireless unit 128. Further, the control unit 126 receives an input from the operation unit 125, outputs necessary information to the display unit 127, and instructs the base station wireless communication unit 122.

  The display unit 127 is a liquid crystal display panel, for example, and displays information to the user.

  The near field communication wireless unit 128 is a wireless transceiver for performing wireless communication by near field communication. The near field communication radio unit 128 modulates and demodulates a near field communication radio signal transmitted and received via the antenna 129, transmits the position information received from the control unit 126 to the radio relay device 11, and the radio relay device 11. The alarm information received from is sent to the control unit 126. The antenna 129 sends a signal received from a terminal by short-range wireless communication to the short-range wireless communication wireless unit 128 and radiates a wireless signal for the terminal generated by the short-range wireless communication wireless unit 128 to space.

  FIG. 2 is a diagram illustrating an outline of a method for controlling the relay function using the area identification information and the position information held by the wireless relay device 11 according to the present embodiment.

  The area identification information is included in the downlink (for example, SYNC channel or pilot channel in CDMA) transmitted from the base station.

  FIG. 2A shows a state in which the wireless relay device 11 is performing a normal relay service. The mobile terminal 12 receives a GPS signal from the GPS satellite 13 and transmits a position information message to the wireless relay device 11. The wireless relay device 11 compares the area identification information 212 and the position information 213 stored in the storage unit 114 with the currently received area identification information and position information, thereby changing the wireless environment and changing the installation location. Confirm.

  FIG. 2B shows the operation of the wireless relay device 11 when the wireless environment changes without changing the installation location. The wireless relay device 11 monitoring the area identification information 212 and the position information 213 detects that the wireless environment has changed and the area identification information 222 has been changed. Specifically, information on FA (channel allocation information), SID (system ID), NID (network ID), and communication method (1x, DO) included in the area identification information is stored in the storage unit 114. If it is different from the information that has been performed, it can be determined that the wireless environment has changed.

  Even if the wireless relay device 11 of the present embodiment detects a change in the area identification information and the channel used is that of the same operator, the wireless relay device 12 can be installed without stopping the wireless relay service. Determine if it has moved. Specifically, the wireless relay device 12 acquires the current position information from the mobile terminal 12 via the short-range communication wireless unit 116 when the area identification information 222 is changed. The wireless relay device 12 compares the position information acquired from the mobile terminal 12 with the position information held in the storage unit 114. When the position information matches (that is, within a predetermined error range), it is determined that the wireless environment has not changed without changing the installation location, and the area identification information 222 in the storage unit 114 is updated.

  On the other hand, when the position information is different (233), as shown in FIG. 2C, it is determined that the installation location of the wireless relay device 11 has been changed by the user, the wireless relay service is stopped, and the short-distance communication wireless unit An alarm is transmitted to the mobile terminal 12 via 116. In addition, since the conventional relay apparatus described above determines the movement of the wireless relay apparatus based only on the area identification information, the area identification information (that is, the configuration of the neighboring base station) even if the installation location is not changed. The wireless relay service is canceled only by changing.

  FIG. 3 is a sequence diagram illustrating transmission / reception of position information between the mobile terminal 12 and the wireless relay device 11 according to the present embodiment.

  When receiving the GPS signal 30 from the GPS satellite, the portable terminal 12 stores the position information generated from the received GPS signal 30 in the storage unit 124 (31).

  On the other hand, the wireless relay device 11 sends a location information request message to the mobile terminal 12 via the short-range communication wireless unit 116 when the power is turned on, at the time of resetting, or when the area identification information transmitted through the base station is changed. 32 is transmitted.

  When the portable terminal 12 receives the position information request message 32, the portable terminal 12 transmits the position information message 33 to the wireless relay device 11 via the short-range communication wireless unit 128.

  The wireless relay device 11 stores the position information included in the received position information message 33 in the storage unit 114, and starts a wireless relay service.

  Thereafter, after the power of the wireless relay device 11 is turned off (35), when the power is turned on, the wireless relay device 11 transmits a location information request message 36 to the mobile terminal 12.

  When receiving the location information request message 36, the portable terminal 12 transmits (31) location information generated from the received GPS signal 31 and held in the storage unit 124 to the wireless relay device 11 as the location information message 33.

  The wireless relay device 11 compares the position information received from the mobile terminal 12 with the position information held in the storage unit 114 (37). As a result, if the position information has not been changed, the service is started. On the other hand, if the position information has been changed, it is determined that the position of the wireless relay device 11 has moved, and the wireless relay service is stopped (for example, from the base station wireless unit 111 and the terminal wireless unit 118). Is stopped) and an alarm is transmitted to the portable terminal 12. Whether the position information has been changed is determined by comparing the longitude and latitude of the two pieces of position information and determining that the position of the wireless relay device 11 has moved if the distance between the two is greater than or equal to a predetermined value.

  Further, the wireless relay device 11 transmits the position information collected from the mobile terminal 12 to the control device 15 at the center via the base station 14. The control device 15 can manage the position of the wireless relay device 11 by collecting the position information from the wireless relay device 11.

  FIG. 4 is a flowchart of processing executed by the control unit 115 of the wireless relay device 11 according to this embodiment.

  When the wireless relay device 11 is installed and the power is turned on (or a reset operation is performed), the control unit 115 starts an initial operation (S101).

  First, the control unit 115 receives region identification information from the base station. Further, the control unit 115 transmits a position information request message to the mobile terminal 12 via the short-range communication wireless unit 116, and receives a position information message as a reply (S102).

  Thereafter, the control unit 115 compares the region identification information received from the base station with the region identification information stored in the storage unit 114 (S103).

  As a result, if the region identification information received from the base station is the same as the region identification information stored in storage unit 114 (NO in S103), control unit 115 determines that the region identification information received from the base station and the mobile phone The position information received from the terminal 12 is stored in the storage unit 114 (S107). Thereafter, the wireless relay service is started and the operation state is maintained (S108).

  On the other hand, if the area identification information received from the base station is different from the area identification information stored in the storage unit 114 (YES in S103), the mobile terminal 12 is positioned via the short-range communication radio unit 116. The information request message is transmitted, the position information message as a reply is received, and the position information included in the received position information message is compared with the position information stored in the storage unit 114 (S104).

  As a result, if the position information received from the terminal matches the position information stored in the storage unit 114 (NO in S104), the control unit 115 receives the region identification information received from the base station and the mobile terminal 12 The position information received from is stored in the storage unit 114 (S107). Thereafter, the wireless relay service is started and the operation state is maintained (S108). Whether the position information matches can be determined as matching if the difference between the two position information is within a predetermined error range.

  On the other hand, if the position information received from the terminal is different from the position information stored in the storage unit 114 (YES in S104), an alarm is transmitted to the portable terminal 12 via the short-range communication wireless unit 116. (S105) The transmission of radio waves from the base station radio unit 111 and the terminal radio unit 118 is stopped, and the service is stopped (S106). Specifically, the service stop includes the stop of the base station radio unit 111 and the terminal radio unit 118, the stop of the control process, and the like.

  After that, the user confirms the portable terminal and takes the action indicated by the alarm.

  When the change of the area identification information is detected during the operation of the wireless relay device 11 (S109), the control unit 115 sends a location information request message to the mobile terminal 12 via the short-range communication wireless unit 116. The received position information message is transmitted (S110). Thereafter, in step S104, the position information received from the terminal is compared with the position information stored in the storage unit 114. Subsequent operations are the same as described above.

  In the process illustrated in FIG. 4, in the initial operation, whether or not the region identification information is changed is determined (S103), but whether or not the region identification information is changed is not determined, and only whether or not the position information is changed is determined. (S104). By controlling the operation of the wireless relay device 11 only by whether or not the position information has been changed, it is possible to detect the movement of the installation place without turning off the power or the movement of the installation place within the same area (the area identification information is not changed). can do.

  FIG. 5 is a diagram illustrating an example of an alarm transmitted from the wireless relay device 11 of this embodiment to the mobile terminal 12.

  As described above, when it is determined that the position has been changed, the wireless relay device 11 stops the service for the mobile terminal 12 and transmits an alarm to the mobile terminal 12 (step 37 in FIG. 3). The alarm includes an alarm name, details of the alarm, and an inquiry destination. The mobile terminal 12 displays the content of the received alarm on the display unit 127 to notify the user that the service of the wireless relay device 11 has stopped. Moreover, the information (for example, serial number) which can specify the radio relay apparatus 11 to a sender | transmitter may be included.

  The user who has received this alarm can know how to re-activate the wireless relay device 11 by accessing the inquiry destination (for example, by telephone or e-mail).

  The alarm does not include a specific instruction as shown in the figure, and may simply turn on the lamp of the mobile terminal 12.

  As described above, in the embodiment of the present invention, in the initial operation of the wireless relay device 11, it is determined whether or not the area identification information and the position information are changed. And when both the area identification information and the position information are changed, the operation is stopped, so that even a wireless relay device that is not supported by the remote monitoring system can prevent unauthorized movement of the installation location by a general user. it can. For this reason, it is possible to avoid an unnecessary stop of the relay function due to fluctuations in the radio wave environment, and to limit illegal operation due to a change in the installation location by the user. For this reason, the management performance of the wireless operator can be improved.

  Moreover, since the portable terminal 12 transmits position information according to the request | requirement from the wireless relay apparatus 11, the increase in the power consumption of the portable terminal 12 can be suppressed.

  Further, since the wireless relay device 11 requests location information from the mobile terminal 12 at the time of initial operation or when a change in area identification information is detected, the traffic between the wireless relay device 11 and the mobile terminal 12 is increased. It can suppress and the increase in the power consumption of the portable terminal 12 can be suppressed.

  Further, since the wireless relay device 11 and the mobile terminal 12 are connected by short-range wireless communication, the wireless relay device 11 can communicate with the mobile terminal 12 even after the operation is stopped.

  Moreover, since the wireless relay apparatus 11 acquires position information from the mobile terminal 12, it is not necessary to mount a wireless system (for example, a GPS receiver) for acquiring position information.

  In addition, when the wireless relay device 11 stops operating, an alarm is transmitted to the mobile terminal 12, so that it is possible to notify the user of the state of the wireless relay device 11 without providing a display unit in the borderless relay device 11. .

  Although the present invention has been described in detail with reference to the accompanying drawings, the present invention is not limited to such specific configurations, and various modifications and equivalents within the spirit of the appended claims Includes configuration.

11 Radio relay device 12 Mobile terminal 111, 116, 118 Radio unit 112, 117, 119 Antenna 113 Device monitoring unit 114 Storage unit 115 Control unit 121 GPS reception unit 122, 128 Radio unit 123, 129 Transmission / reception antenna 124 Storage unit 125 Operation Unit 126 Control unit 127 Display unit

Claims (8)

A relay device that relays a radio signal between a mobile terminal and a base station device,
A control unit for controlling the operation of the relay device;
A non-volatile storage unit for storing data used by the control unit;
A first radio unit communicating with the mobile terminal;
A second radio unit communicating with the base station device;
A third radio unit for obtaining location information from the mobile terminal,
The controller is
Compare the acquired position information and the position information stored in the nonvolatile storage unit,
When the difference between both pieces of position information exceeds a predetermined threshold value, the relay apparatus stops communication by the first wireless unit and the second wireless unit. The relay device according to claim 1,
The relay device transmits a location information request to the mobile terminal,
When the mobile terminal receives the position information request, the mobile terminal transmits the position information to the relay apparatus. The relay device according to claim 2,
The control unit transmits a position information request to the mobile terminal in an initial operation executed when the power of the relay device is turned on. The relay device according to claim 2,
The said control part transmits a positional information request | requirement to the said mobile terminal, when the change of the information which identifies the area which the said base station apparatus provides is detected. The relay device according to any one of claims 1 to 4,
The said control part alert | reports the state of the said relay apparatus to the said mobile terminal, when the said acquired positional information and the positional information stored in the said non-volatile memory | storage part do not correspond. The relay device according to any one of claims 1 to 4,
The third radio unit communicates with the mobile terminal using short-range radio. The relay device according to any one of claims 1 to 4,
The said control part transmits the positional information acquired from the said mobile terminal to a predetermined | prescribed server via the said base station apparatus, The relay apparatus characterized by the above-mentioned. A base station device communicating with a mobile terminal;
A relay device that relays a radio signal between the mobile terminal and the base station device;
A wireless communication system comprising a server for collecting information from the relay device,
The relay device includes a control unit that controls the operation of the relay device, a non-volatile storage unit that stores data used by the control unit, a first radio unit that communicates with the mobile terminal, and the base station device A second wireless unit that communicates with the mobile terminal, and a third wireless unit that acquires position information from the mobile terminal,
The relay device is
The location information acquired from the mobile terminal is transmitted to the server via the base station device,
Compare the acquired position information and the position information stored in the nonvolatile storage unit,
A wireless communication system, wherein communication by the first wireless unit and the second wireless unit is stopped when a difference between both pieces of position information exceeds a predetermined threshold.