JP5717186B2 - COMMUNICATION DEVICE, POSITION RELATED INFORMATION ACQUISITION METHOD, AND PROGRAM - Google Patents

Description

  The present invention relates to a communication device capable of near field communication, a position related information acquisition method of the communication device, and a program.

  Several methods for acquiring position information of a communication device using a portable communication device such as a mobile phone are shown. For example, in the location monitoring method described in Patent Document 1, location information and a schedule of where the monitored person (for example, a child) goes out are stored in the mobile phone terminal of the monitoring person (for example, the parent). Then, the mobile phone terminal of the monitor receives the positioning result of the mobile phone terminal of the monitored person, and displays an abnormal alarm when the position of the positioning result does not match the position based on the schedule. This makes it possible to monitor the location of the monitored person without using a server or computer of a third party organization.

JP 2010-81338 A

  However, in the location monitoring method described in Patent Document 1, when either the monitor's mobile phone terminal or the monitored person's mobile phone terminal is located outside the communication range, the monitor's mobile phone terminal Unable to obtain the positioning result of the monitor's mobile phone terminal. As a result, the monitor cannot monitor the monitored person. In addition, if the mobile phone terminal of the monitored person cannot perform positioning, such as the mobile phone terminal of the monitored person is located outside the GPS (Global Positioning System) range, the mobile phone terminal of the monitored person is still the monitored person. I cannot get the positioning results of my mobile phone. As a result, the monitor cannot monitor the monitored person. That is, in the location monitoring method described in Patent Document 1, if the communication device (monitoring person's mobile phone terminal) cannot acquire the positioning result of the other party's communication device (monitored person's mobile phone terminal), Information about the position of the communication device cannot be displayed (notified to the user).

  An object of the present invention is to provide a communication device, a position-related information acquisition method, and a program that can solve the above-described problems.

The present invention has been made to solve the above-described problem, and a communication apparatus according to an aspect of the present invention includes a request signal transmission unit that transmits a signal requesting to transmit a radio signal with a predetermined strength, and the predetermined signal A reception level measuring unit that measures the reception level of the wireless signal transmitted at a certain intensity, and a source of the wireless signal transmitted at the predetermined intensity based on the reception level measured by the reception level measuring unit A proximity estimation unit that estimates the proximity of a certain counterpart communication device, a proximity display unit that displays the proximity estimated by the proximity estimation unit, and position information of the counterpart communication device by communication via a base station device A partner position information acquisition unit, and an acquisition propriety determination unit that determines whether or not the partner communication device position information can be acquired by the partner position information acquisition unit, and the proximity display unit includes the acquisition propriety Judgment part When determining the position information of the counterpart communication apparatus with the acquisition impossible to display the closeness to estimate the closeness estimating unit, characterized in that.

The position related information acquisition method according to an aspect of the present invention includes a request signal transmission step in which a request signal transmission unit of a communication device transmits a signal requesting to transmit a radio signal with a predetermined strength ; A reception level measurement step in which the reception level measurement unit measures the reception level of the radio signal transmitted at the predetermined strength, and a reception level that the proximity estimation unit of the communication device measures in the reception level measurement step A proximity estimation step for estimating a proximity of a counterpart communication device that is a transmission source of the wireless signal transmitted at the predetermined intensity, and a proximity display unit of the communication device includes the proximity estimation step. a proximity display step of displaying the closeness of estimating at, phase mating position information acquisition unit of the communication device, acquires the position information of the partner communication device through communication via a base station A proximity information acquisition step, and an acquisition availability determination step of determining whether or not the location information of the counterpart communication device is acquired in the counterpart location information acquisition step. In the display step, when it is determined that the position information of the counterpart communication device cannot be acquired in the acquisition possibility determination step, the proximity estimated in the proximity estimation step is displayed .

A program according to an aspect of the present invention includes a request signal transmission step of transmitting a signal requesting to transmit a radio signal at a predetermined strength to a computer as a communication device capable of near field communication, and at the predetermined strength. A reception level measuring step for measuring a reception level of the radio signal to be transmitted; and a partner that is a transmission source of the radio signal transmitted at the predetermined intensity based on the reception level measured in the reception level measurement step A proximity estimation step for estimating the proximity of the communication device, a proximity display step for displaying the proximity estimated in the proximity estimation step, and position information of the counterpart communication device by communication via a base station device Acquisition partner position information acquisition step, and acquisition permission determination for determining whether or not to acquire position information of the partner communication device in the partner position information acquisition step And the proximity display step displays the proximity estimated in the proximity estimation step when it is determined that the location information of the counterpart communication device cannot be acquired in the acquisition availability determination step. , Is a program for.

  According to the present invention, the communication device can display information on the position of the partner communication device even when the positioning result of the partner communication device cannot be obtained.

It is a block diagram which shows schematic structure of the mobile telephone in one Embodiment of this invention in one Embodiment of this invention. It is an arrangement view showing an arrangement example of the antenna in the same embodiment. In the same embodiment, it is a figure which shows the example of the communicable area | region of a mobile telephone (near field communication part) in the case of using an omnidirectional antenna. In the same embodiment, it is a figure which shows the example of the communicable area | region of a mobile telephone (near field communication part) in the case of using a directional antenna. In the embodiment, it is explanatory drawing which shows the example of the determination of the direction of the other party communication apparatus which a mobile telephone performs using a directional antenna. It is explanatory drawing which shows the example of a display of the direction and proximity | contact of a partner communication apparatus in the embodiment. In the same embodiment, it is a flowchart which shows the process sequence which a mobile telephone estimates and displays the direction and proximity of a partner communication apparatus.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a configuration diagram showing a schematic configuration of a mobile phone according to an embodiment of the present invention.
In the figure, a mobile phone (communication device) 1 includes an omnidirectional antenna 101, directional antennas 111 to 113, an antenna switching unit 121, a short-range communication unit (request signal transmission unit) 131, and a reception level measurement. Unit 141, proximity estimation unit 151, direction estimation unit 161, display unit (proximity display unit, direction display unit) 171, network antenna 201, network communication unit (partner position information acquisition unit) 211, An acquisition permission determination unit 221, a reception level determination unit 231, a request signal generation unit 241, and a partner information storage unit 301 are provided.

  When the mobile phone 1 is set to acquire location information of a specific mobile phone (hereinafter referred to as “partner communication device”), the location information of the partner communication device is transmitted to the mobile phone communication network (mobile communication service provider). It is determined whether or not it can be acquired via a communication network for mobile phones provided by. If it is determined that it cannot be acquired, the mobile phone 1 tries to estimate the position of the partner communication device using the short-range communication means, and displays the estimation result.

The communication performed by the mobile phone 1 via the mobile phone communication network is an example of communication performed via the base station device. That is, the mobile phone 1 is connected to the mobile phone communication network by performing wireless communication with the base station device, and communicates with the other communication device via the mobile phone communication network. Hereinafter, communication performed via the mobile phone communication network is referred to as “network communication”.
Note that the scope of application of the present invention is not limited to mobile phones. The present invention can be applied to various communication devices that can register a partner communication device and can communicate with the partner communication device using short-range communication means.

  The omnidirectional antenna 101 and the directional antennas 111 to 113 are all antennas for near field communication. As will be described later, the omnidirectional antenna 101 exhibits the same gain in all directions. On the other hand, the directional antennas 111 to 113 exhibit a large gain with respect to a specific direction. In addition, the directional antennas 111, 112, and 113 each exhibit a large gain with respect to different directions (directions relative to the direction of the mobile phone 1).

  Note that the number of directional antennas included in the mobile phone 1 is not limited to three shown in FIG. For example, when the mobile phone 1 does not include a directional antenna, it is possible to estimate the proximity of a partner communication device described later. Further, when the mobile phone 1 includes one or more directional antennas, it is possible to estimate the direction of the partner communication device described later in addition to the proximity of the partner communication device described later.

  The antenna switching unit 121 performs antenna switching with respect to the omnidirectional antenna 101 and the directional antennas 111 to 113. By the antenna switching performed by the antenna switching unit 121, any one of the omnidirectional antenna 101 and the directional antennas 111 to 113 is selected, and the near field communication unit 131 performs near field communication using the antenna.

  The near field communication unit 131 performs near field communication using an antenna connected via the antenna switching unit 121. In particular, the short-range communication unit 131 transmits a radio signal that requests the partner communication apparatus to transmit a radio signal with a predetermined strength when determining the position information of the partner communication apparatus. Then, the short-range communication unit 131 receives a radio signal with a predetermined strength transmitted from the counterpart communication device, and outputs the received radio signal to the reception level measurement unit 141.

The short-range communication unit 131 performs short-range communication according to, for example, the Bluetooth (registered trademark) standard. Alternatively, the near field communication unit 131 may perform near field communication other than Bluetooth (registered trademark) such as ZigBee (registered trademark) or infrared communication. When the short-range communication unit 131 performs infrared communication, the mobile phone 1 includes an infrared light emitting unit and an infrared light receiving unit instead of the omnidirectional antenna 101 and the directional antennas 111 to 113.
Note that when the short-range communication unit 131 performs communication using a non-directional communication method such as low-frequency wireless communication, the mobile phone 1 can estimate the proximity of a partner communication device described later. When the short-range communication unit 131 performs communication using a directional communication method, the mobile phone 1 estimates the direction of the partner communication device described later in addition to the proximity of the partner communication device described later. It can be performed.

The reception level measurement unit 141 measures the reception level of the radio signal when the radio signal transmitted by the counterpart communication device with a predetermined intensity is output from the short-range communication unit 131. In particular, the reception level measurement unit 141 measures the reception level for each antenna (that is, for each direction of directivity) for radio signals received by the directional antennas 111 to 113.
The proximity estimation unit 151 estimates the proximity of the counterpart communication device based on the reception level measured by the reception level measurement unit 141.

The direction estimation unit 161 estimates the direction of the partner communication device based on the reception level measured by the reception level measurement unit 141.
The display unit 171 has a display screen such as a liquid crystal panel, for example, and displays various data such as moving images, still images, and text data. In particular, the display unit 171 displays the proximity of the partner communication device estimated by the proximity estimation unit 151 and the direction of the partner communication device estimated by the direction estimation unit 161.

The network antenna 201 is an antenna for network communication.
The network communication unit 211 transmits and receives various data such as e-mail data and call voice data by network communication using the network antenna 201. In particular, the network communication unit 211 acquires the position information of the partner communication device from the partner communication device via the mobile phone communication network.

  The availability determination unit 221 determines whether the location information of the partner communication device can be acquired by the network communication unit 211. For example, when the mobile phone 1 is located outside the communication range of the mobile phone, the acquisition availability determination unit 221 determines that the location information of the partner communication device cannot be acquired by the network communication unit 211. The determination result of the acquisition propriety determination unit 221 is used as a determination result of whether or not the mobile phone 1 performs short-range communication and estimates the proximity and direction of the partner communication device. That is, in the mobile phone 1, when the acquisition possibility determination unit 221 determines that the position information of the partner communication device cannot be acquired by the network communication unit 211, processing for performing near field communication and estimating the proximity and direction of the partner communication device I do.

The reception level determination unit 231 determines whether the reception level measured by the reception level measurement unit 141 is equal to or lower than a predetermined level. When the reception level determination unit 231 determines that the reception level measured by the reception level measurement unit 141 is equal to or lower than a predetermined level, the request signal generation unit 241 has a stronger intensity than the received radio signal (a radio signal having a predetermined intensity). Then, a signal requesting to transmit a radio signal is generated and output to the short-range communication unit 131.
The partner information storage unit 301 stores in advance information related to the partner communication device such as a short-range communication identifier (ID) of the partner communication device, a mail address of the partner communication device, and the name of the user of the partner communication device. The partner information storage unit 301 is realized using, for example, a storage device included in the mobile phone 1.

Next, communication performed by the mobile phone 1 (short-distance communication unit 131) using the omnidirectional antenna 101 and the directional antennas 111 to 113 will be described with reference to FIGS.
FIG. 2 is an arrangement diagram illustrating an arrangement example of antennas. As shown in the figure, the cellular phone 1 includes an omnidirectional antenna 101, directional antennas 111 to 113, and a network antenna 201 therein. Among these antennas, the omnidirectional antenna 101 and the directional antennas 111 to 113 are antennas used by the short-range communication unit 131 (FIG. 1) to perform short-range communication. The near field communication unit 131 is connected to one of the antennas via the antenna switching unit 121, and performs near field communication using the antenna.

FIG. 3 is a diagram illustrating an example of a communicable area of the mobile phone 1 (short-distance communication unit 131) when the omnidirectional antenna 101 is used. In the figure, a communicable area of the mobile phone 1 is indicated by an area A11. The communicable area referred to here is between the mobile phone 1 and the counterpart communication device when the mobile phone 1 and the counterpart communication device transmit a radio signal with a predetermined transmission power (predetermined strength). This is an area where near field communication is possible.
In order to make the figure easy to see, the mobile phone 1 is displayed larger than the communicable area A11. The communicable area A11 is, for example, a circular area having a radius of about 10 meters. Note that the shape of the communicable area A11 shown in the figure is an ideal shape in a communication environment, and is deformed depending on conditions such as an obstacle.

FIG. 4 is a diagram illustrating an example of a communicable area of the mobile phone 1 (short-distance communication unit 131) when the directional antenna 112 is used. In the figure, a communicable area of the mobile phone 1 is indicated by an area A21. In order to make the figure easy to see, the mobile phone 1 is displayed larger than the communicable area A21. The communicable area A21 is an elliptical area having a major axis of about 10 meters, for example. Similar to the communicable area A11 in FIG. 3, the shape of the communicable area A12 shown in FIG. 4 is changed depending on conditions such as an obstacle.
In addition, the oval shape of the communicable area A12 illustrated in FIG. 4 is an example, and may have another shape such as a sector shape.

FIG. 5 is an explanatory diagram illustrating an example of determination of the direction of the partner communication device performed by the mobile phone 1 using the directional antennas 111 to 113.
In the example of the figure, the communicable area of the mobile phone 1 is the area A31 when the directional antenna 111 is used, the area A21 when the directional antenna 112 is used, and the directional antenna 113 is used. It becomes area A33. These areas A31 to A33 are areas having the same size and shape as the area A21 shown in FIG. 4, for example. The areas A31 and A32 and the areas A32 and A33 are arranged at intervals of a predetermined angle θ (for example, 45 degrees).
In addition, the mobile phone 2 that is the counterpart communication device is located in the area A31 and outside the areas A32 and A33.

In this case, the short-range communication unit 131 can detect a radio signal transmitted from the counterpart communication device by performing short-range communication using the directional antenna 111. On the other hand, when the short-range communication unit 131 performs short-range communication using the directional antenna 112 or 113, the counterpart communication device is located outside the communicable area corresponding to these antennas, and thus the short-range communication unit 131 does not detect a radio signal transmitted from the counterpart communication device.
Therefore, the direction estimation unit 161 compares the level of the reception signal of the short-range communication unit 131 in each direction so that the counterpart communication device is positioned in the directionality direction of the directional antenna 111 (the direction of the region A31). It can be determined.

  FIG. 6 is an explanatory diagram showing a display example of the direction and proximity of the counterpart communication device. In the figure, the determination result of the direction of the partner communication device is displayed in a part D11 of the display screen of the display unit 171. Here, as shown in the example of FIG. 5, a display example when the direction estimation unit 161 determines that the partner communication device is located in the directivity area A31 of the directional antenna 111 is shown.

Further, in the part D12, the determination result of the proximity of the partner communication device is displayed. In the display example of the figure, the display unit 171 displays a mark on the right side toward the display screen as the partner communication device is closer to the mobile phone 1 in the determination result. Here, it is determined that the partner communication device is located far from the mobile phone 1, and a mark is displayed on the left side of the display screen.
Further, the reception level of the radio signal from the counterpart communication device is displayed as a numerical value in the part D13.

Next, the operation of the mobile phone 1 will be described with reference to FIG.
FIG. 7 is a flowchart showing a processing procedure in which the mobile phone 1 estimates and displays the direction and proximity of the counterpart communication device. When the mobile phone 1 enters a power-on (ON) state and is set to display position information of the counterpart communication device, the mobile phone 1 starts the processing of FIG. The setting for displaying the position information of the partner communication device is performed, for example, when the operation input unit of the mobile phone 1 accepts a user's setting operation.

  First, the availability determination unit 221 determines whether or not the location information (positioning result) of the partner communication device cannot be acquired via the mobile phone communication network (step S101). Here, if it is determined that the position information of the partner communication device cannot be acquired via the mobile phone communication network, the mobile phone 1 uses short-range communication to provide information on the position of the partner communication device (the partner with respect to the mobile phone 1). Attempt to obtain the proximity and direction of the communication device.

  For example, when the mobile phone 1 cannot establish communication with the base station device, that is, when the mobile phone 1 is located outside the communication range of the mobile phone communication network, the acquisition permission determination unit 221 determines the location information of the partner communication device. Is determined not to be obtainable via the mobile phone communication network. On the other hand, when the mobile phone 1 (network communication unit 211) can establish communication with the base station device, that is, when the mobile phone 1 is located within the communication range of the mobile phone communication network, the location information of the partner communication device is obtained. It is determined that acquisition is possible via the mobile phone communication network.

Note that the method for determining whether or not the acquisition possibility determination unit 221 can acquire the position information of the partner communication device via the mobile phone communication network is based on whether or not the mobile phone 1 is located outside the communication range of the mobile phone communication network. It is not restricted to the method by.
For example, when the mobile phone 1 periodically receives position information from the counterpart communication device and the elapsed time since the last reception of the location information from the counterpart communication device becomes a predetermined time or more, It may be determined that the position information cannot be acquired via the mobile phone communication network.

  Alternatively, the mobile phone 1 is equipped with a GPS device, and positioning (acquisition of own position information) is not possible, for example, the GPS device is located outside the GPS range (outside the area where transmission signals from GPS satellites can be properly received). In this case, it is determined that the partner communication device is also unable to perform positioning (acquisition of the partner communication device position information), and therefore it is determined that the partner communication device position information cannot be acquired via the mobile phone communication network. Good.

  If it is determined in step S101 that the position information of the partner communication device cannot be acquired via the mobile phone communication network (that is, it can be acquired) (step S101: NO), the process returns to step S101, and the process of FIG. In this case, when the mobile phone 1 receives a request for acquiring position information of the partner communication device from the user, the mobile phone 1 receives the request from the partner communication device via the mobile phone communication network in a process performed in parallel with the process of FIG. Get location information.

On the other hand, when it is determined in step S101 that the position information of the partner communication device cannot be acquired via the mobile phone communication network (step S101: YES), the antenna switching unit 121 receives the determination result and the omnidirectional antenna 101 receives the determination result. Are connected to the short-range communication unit 131 (step S111).
Then, the request signal generation unit 241 generates a signal that requests the counterpart communication device to transmit a radio signal with a predetermined signal strength (predetermined strength), and outputs the signal to the short-range communication unit 131. Then, the short-range communication unit 131 that has acquired the signal generated by the request signal generation unit 241 transmits the signal by short-range communication using the omnidirectional antenna 101 (step S112).

After that, the reception level determination unit 231 (for example, within a certain period of time after transmitting the radio signal in step S112) receives a radio signal having a reception level that can be determined to be a radio signal from the counterpart communication device (a predetermined level or higher). It is determined whether or not a wireless signal has been received from the counterpart communication device (step S121). Here, the reception level measurement unit 141 measures the level of the reception signal of the short-range communication unit 131, and the reception level determination unit 231 performs the determination based on the measurement result.
If it is determined that the data has not been received (step S121: NO), the process returns to step S101, and the process of FIG.

If the reception level determination unit 231 determines in step S121 that a radio signal of a predetermined level or higher has not been received, in step S112, the short-range communication unit 131 detects the signal strength (predetermined strength) transmitted last time. A wireless signal requesting to transmit a wireless signal with a signal strength stronger than () may be transmitted to the counterpart communication device. For example, the request signal generation unit 241 generates a signal requesting transmission of a radio signal with the maximum transmission power, and the short-range communication unit 131 transmits the signal.
Thereby, it is expected that the cellular phone 1 can acquire information on the position of the partner communication device by retransmission even when the wireless signal of sufficient strength cannot be acquired such as when the partner communication device is located far away. .

  On the other hand, when the reception level determination unit 231 determines in step S121 that a radio signal of a predetermined level or higher has been received (step S121: YES), the proximity estimation unit 151 is based on the measurement result of the reception level measurement unit 141. Then, the proximity of the partner communication device is estimated (step S131). Specifically, the proximity estimation unit 151 determines that the counterpart communication apparatus is located closer to the reception level measured by the reception level measurement unit 141 (the received signal power is higher), and the reception level is lower ( It is determined that the partner communication device is located farther as the received signal power is smaller.

Next, the mobile phone 1 starts a processing loop L11 for performing processing for each directional antenna (step S141). Hereinafter, the loop variable is expressed as i (i is an integer of 1 ≦ i ≦ directional antenna number (3 in the present embodiment)).
In the loop L11, first, the antenna switching unit 121 selects the i-th directional antenna (in this embodiment, the directional antennas 111, 112, and 113 in this order), and the selected antenna and the short-range communication unit 131 are selected. Connect (step S142).

  Next, as in the case of step S112, the short-range communication unit 131 transmits a radio signal requesting the counterpart communication device to transmit a radio signal. Then, the reception level measurement unit 141 transmits a radio signal transmitted from the counterpart communication device and received by the short-range communication unit 131 (for example, receiving a radio signal requesting transmission of a radio signal within a predetermined time). The reception level is measured and the measurement result is stored (step S143).

Thereafter, the mobile phone 1 determines whether or not the processing of the loop L11 has been completed for all the directional antennas (directional antennas 111 to 113) that the mobile phone 1 has. If it is determined that there are remaining directional antennas, the process returns to step S141, and the processing of loop L11 is continued for the remaining directional antennas (step S144).
When the processing loop L11 is completed, the direction estimation unit 161 estimates the direction of the counterpart communication device based on the reception level for each directional antenna stored in the reception level measurement unit 141 (step S151). For example, the direction estimation unit 161 estimates that the counterpart communication device is located in the directionality direction of the directional antenna having the highest reception level (for example, the major axis direction of the communicable area A31 of the directional antenna 111 in FIG. 5).
Then, the display unit 171 displays the proximity of the partner communication device estimated by the proximity estimation unit 151 in step S131 and the direction of the partner communication device estimated by the direction estimation unit 161 in step S151 (step S152).
Thereafter, the mobile phone 1 waits for the elapse of a predetermined measurement interval time (step S153).
Then, it returns to step S101 and repeats the process of the figure.

  As described above, the mobile phone 1 estimates and displays the proximity of the partner communication device as information related to the position of the partner communication device based on the reception level of the radio signal transmitted from the partner communication device in short-range communication. To do. Accordingly, even when the position information of the partner communication device cannot be acquired, the mobile phone 1 can display information regarding the position of the partner communication device.

Further, when the mobile phone 1 determines that the position information of the partner communication device cannot be acquired through communication via the mobile phone communication network (communication via the base station device), the mobile phone 1 performs short-range communication and determines the proximity of the partner communication device. Is estimated and displayed.
Therefore, the user of the mobile phone 1 can know the proximity of the partner communication device without the trouble of performing the operation and without having to learn the operation procedure.

  In addition, the mobile phone 1 measures the reception level of the radio signal transmitted from the partner communication device in each of a plurality of directions corresponding to the plurality of directional antennas, and based on the measured reception level, Estimate and display the direction of the position. Therefore, even when the position information of the counterpart communication device cannot be acquired, the mobile phone 1 can display the direction in which the counterpart communication device is located as information related to the location of the counterpart communication device.

  In addition, the mobile phone 1 determines whether or not a radio signal of a predetermined level or higher has been received from the counterpart communication device, and if it determines that it has not been received, the mobile phone 1 requests to transmit the radio signal with stronger intensity. Thereby, it is expected that the cellular phone 1 can acquire information on the position of the partner communication device by retransmission even when the wireless signal of sufficient strength cannot be acquired such as when the partner communication device is located far away. .

  In addition to the screen display or in place of the screen display, the display unit 171 vibrates the casing of the mobile phone 1 (hereinafter referred to as “vibration vibration”), whereby the other party communication by the proximity estimation unit 151 is performed. The determination result of the proximity of the device may be displayed (notified). For example, the vibration vibration period is shortened when the reception level is strong, and the vibration vibration period is lengthened when the reception level is weak. That is, the display unit 171 notifies the proximity of the counterpart communication device by intermittently repeatedly vibrating the casing of the mobile phone 1. At this time, for example, the closer the partner communication device is, that is, the stronger the reception level, the shorter the time interval at which the display unit 171 does not vibrate vibration. On the other hand, the farther the other communication device is, that is, the weaker the reception level, the longer the time interval in which the display unit 171 does not vibrate vibration.

  Thus, even when the user of the mobile phone 1 is not looking at the display screen of the mobile phone 1 by the notification by the vibration vibration by the display unit 171, the proximity estimation unit 151 determines the proximity of the partner communication device. The result can be notified to the user. Further, by changing the vibration vibration cycle according to the reception level, the user of the mobile phone 1 can intuitively grasp the proximity of the target device.

Note that the communicable area A11 of the mobile phone 1 may be switchable such as 5 meters, 10 meters, and 100 meters. For example, when the mobile phone 1 performs short-range communication and exchanges data with another mobile phone, the communication area is set to 100 meters, the possibility of data exchange is increased, and the proximity and direction of the partner communication device are estimated. In this case, the communicable area may be 10 meters, and it may be possible to determine whether or not the partner communication device is located near the mobile phone 1.
Switching of the communicable area of the cellular phone 1 can be performed by switching the reception sensitivity of the short-range communication unit 131 or by switching the short-range communication antenna to one having a different sensitivity.

  Note that the method by which the mobile phone 1 estimates the direction of the partner communication device is not limited to the method of switching the directional antenna described above. For example, the mobile phone 1 includes one antenna and a plurality of (for example, three) phase circuits that change the directivity with respect to the parasitic terminal of the antenna, and the directivities having different angles by switching the phase circuits. You may make it implement | achieve a characteristic. This makes it possible to estimate the direction of the partner communication device, as in the method of switching antennas.

Note that the mobile phone 1 may include the short-range communication unit 131 and the reception level measurement unit 141 for each directional antenna, and may simultaneously measure the reception level in each direction. Thereby, the mobile phone 1 can estimate the position of the counterpart communication device by receiving one radio signal from the counterpart communication device.
Therefore, the mobile phone 1 can estimate the position of the partner communication device faster. In addition, it is possible to reduce the communication load of the mobile phone 1 and the partner communication device.

It should be noted that a program for realizing all or part of the functions of the mobile phone 1 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed to execute each unit. You may perform the process of. Here, the “computer system” includes an OS and hardware such as peripheral devices.
Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case, and a program that holds a program for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design changes and the like without departing from the gist of the present invention.

DESCRIPTION OF SYMBOLS 1 Cellular phone 101 Omnidirectional antenna 111-113 Directional antenna 121 Antenna switching part 131 Short-distance communication part 141 Reception level measurement part 151 Proximity estimation part 161 Direction estimation part 171 Display part 201 Network antenna 211 Network communication part 221 Acquisition availability Determination unit 231 Reception level determination unit 241 Request signal generation unit 301 Partner information storage unit

Claims (6)

A request signal transmitter for transmitting a signal requesting to transmit a radio signal at a predetermined intensity;
A reception level measuring unit for measuring a reception level of the radio signal transmitted at the predetermined intensity;
Based on the reception level measured by the reception level measurement unit, a proximity estimation unit that estimates the proximity of the counterpart communication device that is the transmission source of the wireless signal transmitted at the predetermined intensity;
A proximity display unit that displays the proximity estimated by the proximity estimation unit;
A partner position information acquisition unit for acquiring position information of the partner communication device by communication via a base station device;
An acquisition availability determination unit that determines whether or not to acquire the location information of the counterpart communication device by the counterpart location information acquisition unit;
Comprising
The proximity display unit displays the proximity estimated by the proximity estimation unit when the acquisition availability determination unit determines that the position information of the counterpart communication device cannot be acquired.
A communication device. The reception level measurement unit measures the reception level of a radio signal transmitted from the counterpart communication device for each of a plurality of directions,
The communication device
Based on the reception level measured by the reception level measurement unit, a direction estimation unit that estimates a direction in which the counterpart communication device is located;
A direction display unit for displaying the direction estimated by the direction estimation unit;
The communication apparatus according to claim 1, further comprising: A reception level determination unit for determining whether or not the reception level measurement unit has detected a radio signal of a predetermined level or higher,
When the reception level determination unit determines that the request signal transmission unit has not detected a radio signal that is equal to or higher than the predetermined level, the request signal transmission unit requests to transmit a radio signal with a strength stronger than the predetermined strength. The communication device according to claim 1 or 2 . The closeness display unit of claims 1 to 3, characterized in that vibrating the intermittently the communication device by the length of the time interval in which the corresponding to the closeness of estimates to the closeness the closeness estimator The communication apparatus as described in any one. A request signal transmitting step of transmitting a signal for requesting that the request signal transmitting unit of the communication device transmit a radio signal at a predetermined intensity;
A reception level measurement step in which the reception level measurement unit of the communication device measures the reception level of the radio signal transmitted at the predetermined intensity; and
Based on the reception level measured in the reception level measurement step , the proximity estimation unit of the communication device estimates the proximity of the counterpart communication device that is the transmission source of the radio signal transmitted at the predetermined intensity. A proximity estimation step;
A proximity display step for displaying the proximity estimated by the proximity estimation unit in the proximity estimation step;
The partner position information acquisition unit of the partner position information acquisition unit of the communication apparatus acquires the position information of the partner communication apparatus by communication via a base station device;
An acquisition possibility determination unit that determines whether the communication apparatus can acquire position information of the counterpart communication apparatus in the counterpart position information acquisition step;
Comprising
In the proximity display step, when it is determined that the position information of the counterpart communication device cannot be acquired in the acquisition possibility determination step, the proximity estimated in the proximity estimation step is displayed.
A position related information acquisition method characterized by the above. To a computer as a communication device capable of near field communication,
A request signal transmission step of transmitting a signal requesting to transmit a radio signal at a predetermined intensity;
A reception level measuring step of measuring a reception level of the radio signal transmitted at the predetermined intensity;
Based on the reception level measured in the reception level measurement step, a proximity estimation step of estimating the proximity of the counterpart communication device that is the transmission source of the wireless signal transmitted at the predetermined intensity;
A proximity display step for displaying the proximity estimated in the proximity estimation step;
A partner position information acquisition step of acquiring position information of the partner communication device by communication via a base station device;
An acquisition propriety determination step for determining whether or not to acquire the position information of the counterpart communication device in the counterpart position information acquisition step;
And execute
In the proximity display step, when it is determined that the position information of the counterpart communication device is unacquirable in the acquisition possibility determination step, the proximity estimated in the proximity estimation step is displayed.
Program for.

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