JP6269032B2 - Communication terminal, method of detecting passing terminal, and program - Google Patents

Description

  The present invention relates to a communication terminal, a method for detecting a passing terminal, and a program.

  Some portable communication terminals such as smartphones and game machines equipped with a short-range wireless communication function such as Bluetooth (registered trademark) can exchange data with other communication terminals. Data can be exchanged even in a short time, and such data exchange is called passing communication.

  During passing communication, it is possible to exchange data with communication terminals within the range where wireless communication is possible, but it is useful even if users who have different hobbies and game play situations, etc. and do not match direction, exchange data. Data exchange may not be possible. Therefore, instead of exchanging data with all communication terminals, a communication terminal for exchanging data is selected according to the current position of the communication terminal, game play status, and the like (for example, Patent Document 1). To 3).

JP 2011-209872 A JP 2012-151735 A JP 2013-17726 A

According to the passing communication, since data exchange is performed without the user being aware of it, it is possible to provide an opportunity for users who are not acquainted to know each other.
In recent years, clocks, pedometers (registered trademark), data recording devices for running, etc. have been equipped with wireless communication functions, making it possible to exchange data. It is also possible to provide an opportunity. In this case, since it is assumed that the users are moving and passing each other, it is necessary to select a passing communication terminal as a data exchange destination.

  However, the conventional communication terminal selection method assumes a situation where users are gathered in a limited area such as an event venue, and selects a communication terminal that satisfies the current position as a data exchange destination. . Therefore, it is not known whether the selected communication terminal is a communication terminal that has passed due to movement.

  An object of the present invention is to accurately detect other communication terminals passing each other.

According to the present invention, in order to solve the above problems,
Wireless communication means for exchanging communication data with other communication terminals;
Radio wave intensity measuring means for measuring radio wave intensity at the time of reception each time communication data is received from the other communication terminal by the wireless communication means;
When each radio field intensity measured within a predetermined time by the radio field intensity measuring unit forms a peak, a passing detection unit that detects the other communication terminal as a passing terminal;
Date and time acquisition means for acquiring the reception date and time of the communication data;
Storage means for storing communication data received from the other communication terminal, the radio wave intensity measured at the time of receiving the communication data, and the reception date and time;
Equipped with a,
The passing detection means transmits the communication data in the case where the same communication data stored in the storage means and each radio wave intensity of a plurality of communication data having a reception date and time within a certain time form a peak. communication terminal characterized that you detect other communication terminal as a passing terminal is provided.

  ADVANTAGE OF THE INVENTION According to this invention, the other communication terminal which passes can be accurately detected as a passing terminal from many communication terminals which can exchange communication data within the range in which wireless communication is possible.

It is a figure which shows the several communication terminal which passes each other. It is a functional block diagram of the communication terminal which concerns on this Embodiment. The time chart in the case of exchanging communication data without establishing a connection by the communication protocol of BLE (Bluetooth Low Energy) is shown. 2 shows a format of communication data in a BLE communication protocol. It is a flowchart which shows the process sequence at the time of a communication terminal exchanging communication data with another communication terminal, and detecting a passing terminal. It is a figure which shows an example of a reception log list. 6 is a flowchart of passing detection processing executed by a control unit in the processing procedure shown in FIG. 5.

  Hereinafter, embodiments of a communication terminal, a passing terminal detection method, and a program according to the present invention will be described with reference to the drawings.

FIG. 1 shows three communication terminals A, B, and C that are carried by each moving user.
Each of the communication terminals A to C is a portable terminal having a wireless communication function, and may be, for example, a smartphone, a game machine, a watch, a pedometer, a running data recording device, or the like. Such communication terminals A to C can exchange communication data with each other by wireless communication.
Since the basic components for communicating communication data between the communication terminals A to C are the same, the configuration when the communication terminal A is a smartphone will be described as an example.

FIG. 2 is a functional block diagram showing the configuration of communication terminal A according to the present embodiment for each function.
The communication terminal A is a smartphone. As shown in FIG. 2, the control unit 11, the storage unit 12, the operation unit 13, the display unit 14, the timekeeping unit 15, the microphone 161, the speaker 162, the call processing unit 16, the communication unit 17, The wireless communication unit 18 and the position detection unit 19 are provided. Each part of the communication terminal A is connected by a bus 30.

The control unit 11 includes a CPU (Central Processing Unit), a RAM (Random Access Memory), and the like. The control unit 11 reads the program 121 stored in the storage unit 12 and executes the program 121 to control the operation of each unit of the communication terminal A.
For example, when a call is instructed via the operation unit 13, the control unit 11 executes a call processing program and causes the call processing unit 16 and the communication unit 17 to exchange call audio with the communication terminal of the call destination. .

  Further, the control unit 11 (passing detection unit, date acquisition unit) receives the radio wave intensity measured at the time of reception from the wireless communication unit 18 every time the wireless communication unit 18 receives communication data from another communication terminal B or C. get. The control unit 11 detects another communication terminal B or C as a passing terminal when each radio wave intensity obtained within a certain time forms a peak. The passing terminal refers to another communication terminal B or C that moves away after approaching the communication terminal A.

The storage unit 12 stores a program 121 that can be read by the control unit 11, data necessary for executing the program 121, and the like.
As the storage unit 12, for example, a storage medium such as a hard disk, an EEPROM (Electrically Erasable Programmable ROM), or a flash memory can be used.

  Although details will be described later, the storage unit 12 (storage means) stores a reception history list 122. The reception history list 122 is a list of communication data received from another communication terminal B or C, radio wave intensity measured when the communication data is received, reception date and time of the communication data, and the like.

  The operation unit 13 includes operation keys, a touch panel, and the like, generates an operation signal corresponding to these operations by the user, and outputs the operation signal to the control unit 11.

  The display unit 14 (display unit) includes an LCD (Liquid Crystal Display), an organic EL (Electroluminescence) display, and the like, and displays a display screen such as an operation screen or a notification screen according to display control by the control unit 11.

  The timer unit 15 measures time based on the clock signal output from the oscillator, and outputs the current date and time.

The microphone 161 inputs a call voice.
The call processing unit 16 performs A / D conversion on the transmitted voice input from the microphone 161, generates a baseband signal by encoding, and outputs the baseband signal to the communication unit 17. In addition, the call processing unit 16 decodes the baseband signal of the received voice input from the communication unit 17, performs D / A conversion, and outputs the result to the speaker 162.
The speaker 162 outputs a call voice.

The communication unit 17 includes an antenna 171 for RF (Radio Frequency) communication, and performs transmission and reception of call voice, mail, and the like with the base station using the antenna 171.
Specifically, the communication unit 17 demodulates radio waves received via the antenna 171 and outputs the obtained voice baseband signal, mail packet, and the like to the call processing unit 16 and the control unit 11, respectively. Further, the communication unit 17 transmits the radio wave obtained by modulating the mail packet input from the control unit 11 or the baseband signal input from the call processing unit 16 to the base station via the antenna 171. .
Note that the communication unit 17 can connect to an access point of a wireless LAN (Local Area Network) by WiFi (Wireless Fidelity), and can perform transmission and reception via the Internet.

The wireless communication unit 18 (wireless communication means) includes a Bluetooth antenna 181 and a Bluetooth module 182. The wireless communication unit 18 transmits and receives communication data to and from another communication terminal B or C via the antenna 181 by the Bluetooth module 182.
In addition, the wireless communication unit 18 includes a radio wave intensity measurement unit 183. The radio wave intensity measuring unit 183 (radio wave intensity measuring means) measures the radio wave intensity at the time of reception every time communication data is received.
As long as short-range wireless communication can be performed, the communication standard of the wireless communication unit 18 is not limited to Bluetooth, and other communication standards such as Zigbee (registered trademark) may be used.

The Bluetooth module 182 uses a BLE (Bluetooth Low Energy) communication protocol for transmission and reception of communication data.
The communication protocol of BLE is constant in a transmission mode that only transmits communication data to another communication terminal B or C and a reception mode that only receives communication data transmitted from another communication terminal B or C. Repeat at every interval. The transmission mode is called Advertise, and the reception mode is called Scan.
The wireless communication unit 18 transmits communication data to another communication terminal B or C in the transmission mode and transmits from another communication terminal B or C in the reception mode according to the BLE communication protocol that repeats the transmission mode and the reception mode. Received communication data.

According to BLE, communication data can be exchanged without establishing a connection.
FIG. 3 shows a time chart when three communication terminals A, B and C exchange communication data without establishing a connection.
As shown in FIG. 3, each of the communication terminals A, B, and C repeats the transmission mode represented by Advertise and the reception mode represented by Scan, and sets a role as a Central and a role as a Peripheral. It is switched alternately.

As illustrated in FIG. 3, the wireless communication unit 18 switches between the transmission mode and the reception mode at a preset time. Specifically, the wireless communication unit 18 includes a counter, which counts time with the counter and switches from the transmission mode to the reception mode or vice versa when the switching time is reached.
The time in the transmission mode and the reception mode can be set for each communication terminal A, B, and C. Therefore, communication data can be exchanged when one communication terminal is in the transmission mode and the other communication terminal is in the reception mode. For example, the communication terminal B can receive the communication data transmitted from the communication terminal A while the transmission mode of the communication terminal A and the reception mode of the communication terminal B overlap.

FIG. 4 shows a format of communication data in BLE.
As shown in FIG. 4, the communication data is packet data including a header 31 and a payload 32. The Payload 32 that is actual data is composed of N AD Structures N34 with address33 at the head. address33 indicates the address of each AD Structure N34.
Each AD Structure N34 includes a Length 35, an AD Type 36, and an AD Data 37. Length 35 defines the data length of AD Structure N34. In AD Type 36, a flag indicating the type of data stored in AD Data 37 is stored. When a flag of 0xFF is stored in AD Type 36, specific data can be stored as AD Data 37.

  The specific data refers to any data that can be distributed to other communication terminals B or C without being limited to BLE. Examples of data that can be stored in the AD Data 37 as specific data include message data set by the user for distribution, user profile data, user ID issued in the service used by the user, and specific to the communication terminal A Examples include identification data such as a terminal ID.

  The position detector 19 includes a GPS (Global Positioning System) antenna 191, receives radio waves from a plurality of GPS satellites by the antenna 191, and calculates the distance from each of them, thereby determining the current position of the communication terminal A. To detect.

Each of the communication terminals A to C can detect a passing terminal. The detection of the passing terminal may be realized by, for example, an application installed in each of the communication terminals A to C, for example, an application for a running user, an application for a communication tool, or the like.
Hereinafter, the processing procedure when the communication terminal A detects the passing terminal will be described with reference to FIG. 5, but the communication terminals B and C can also detect the passing terminal by the same processing procedure as the communication terminal A. .

  As shown in FIG. 5, in the communication terminal A, first, the control unit 11 performs initial setting of wireless communication (step S1). Specifically, the control unit 11 resets the reception history list 122 stored in the storage unit 12.

After the initial setting, the control unit 11 sets specific data to be transmitted to another communication terminal B or C (step S2). As described above, the specific data may be message data distributed to another communication terminal B or C, or may be profile data of the user of the communication terminal A. The specific data may be identification data such as a terminal ID unique to the communication terminal A, a user ID of a service used by a user of the communication terminal A, and the like.
Next, the control part 11 produces | generates communication data according to the format shown in FIG. 4 (step S3). At this time, the control unit 11 writes a 0xFF flag in the AD Type 36, and writes the specific data set in Step S2 in the AD Data 37.

  When the communication data is generated, the wireless communication unit 18 sets the transmission mode time T1 in the counter (step S4), starts counting down from the time T1, and transmits the communication data (step S5). When the count value of the counter is not 0 and the time T1 has not elapsed (step S6; N), the wireless communication unit 18 returns to the process of step S5 and repeats transmission of communication data.

  When the count value of the counter becomes 0 and the time T1 has elapsed (step S6; Y), the wireless communication unit 18 ends the transmission mode and sets the reception mode time T2 in the counter (step S7). The wireless communication unit 18 starts counting down from the time T2 using a counter and starts the reception mode. When the count value is not 0 and the time T2 has not elapsed (step S8; N), the wireless communication unit 18 waits for reception of communication data transmitted from another communication terminal B or C.

  When the wireless communication unit 18 receives communication data from another communication terminal B or C (step S8; Y), the control unit 11 stores the reception history of the communication data in the reception history list 122 (step S9). Specifically, the control unit 11 acquires the radio wave intensity at the time of receiving the communication data from the radio wave intensity measuring unit 183, and acquires the current date and time from the time measuring unit 15 as the reception date and time of the communication data. Note that the control unit 11 can also acquire the current date and time from a server on the Internet or the like via the communication unit 17. The control unit 11 stores the communication data received by the wireless communication unit 18 and the acquired radio wave intensity and reception date / time in the reception history list 122 as a reception history. The control unit 11 may store all of the communication data, or may store only specific data in the communication data.

FIG. 6 shows an example of the reception history list 122 when specific data is stored.
As illustrated in FIG. 6, the reception history list 122 includes items of reception date and time, specific data, radio wave intensity, number of passing, and passing detection in association with the order of reception of communication data.

The control unit 11 assigns the reception order to the newly received communication data, and receives the reception date and time acquired from the time measuring unit 15, the specific data in the received communication data, the radio wave for each item of reception date and time, specific data and radio wave intensity The radio wave intensity acquired from the intensity measuring unit 183 is written.
Further, the control unit 11 writes the number of times the same communication data is received in the item of the number of passing times. Specifically, if the control unit 11 has a reception history that is the same as the newly received communication data, that is, the specific data is the same and the reception order is the previous reception history, the control unit 11 passes the previous reception history. 1 is added to the number of times to make the number of passing newly received communication data. If there is no corresponding reception history, the control unit 11 writes a numerical value of 0 in the item of the number of passing times of newly received communication data.

  In the passing detection item, a flag of 1 or 0 is written by the passing detection process described later. A flag of 1 indicates that a passing terminal has been detected, and a flag of 0 indicates that a passing terminal has not been detected. The blank in the passing detection item indicates that the passing detection process is not performed.

After storing the reception history, when the same communication data has been received in the past (step S10; Y), the control unit 11 executes a passing detection process (step S11). If the same communication data has not been received in the past (step S10; N), the process returns to step S8 and waits for reception of new communication data.
Whether or not the same communication data has been received in the past can be determined from the reception history list 122. In the reception history list 122, the control unit 11 determines that the received communication data and the specific data have the same reception history, and has received in the past. If there is no corresponding reception history, the control unit 11 has received the past. Judge that there is no.

FIG. 7 shows the procedure of the passing detection process.
As shown in FIG. 7, the control unit 11 reads out the same communication data, that is, the reception history having the same specific data from the reception history list 122 (step S21). The control unit 11 extracts one of the read reception histories of the plurality of communication data as a detection target, and further extracts the reception histories of communication data before and after the detection target communication data and the reception order are continuous ( Step S22).

  The control unit 11 determines whether or not the number of passing of communication data whose reception order is later than the communication data to be detected is two or more in the reception history of the extracted three communication data (step S23). When it is twice or more (step S23; Y), the control unit 11 determines whether or not each radio wave intensity of the three communication data forms a peak (step S24). Specifically, when the radio wave intensity of the communication data to be detected is larger than the radio wave intensity of the preceding and subsequent communication data, the control unit 11 determines that each radio wave intensity forms a peak.

When the control unit 11 determines that each radio wave intensity forms a peak (step S24; Y), the control unit 11 calculates a time difference between the reception dates of the preceding and subsequent communication data. If the calculated time difference is within a certain time (step S25; Y), the control unit 11 can determine that there is a difference in the reception date and time of the communication data to be detected. The other communication terminal B or C that has transmitted the data is detected as a passing terminal (step S26). The fixed time can be arbitrarily set as the time for determining passing, for example, 3 seconds.
When a passing terminal is detected, the control unit 11 writes a flag of 1 indicating that the terminal has been detected as a passing terminal in the passing detection item of the communication data to be detected in the reception history list 122.

  For example, in the reception history list 122 shown in FIG. 6, when the reception history of the communication data in the reception order 9 is extracted as the detection target, the control unit 11 has the same reception data as the reception order 9 and the continuous reception. The reception history of the communication data in order 8 and 10 is further extracted. Of the three reception histories in the reception order 8 to 10, the number of times of passing in the reception history in the reception order 10 is 6 times, 2 times or more. In addition, the radio wave intensity in the reception order 9 is higher than the radio wave intensity in the reception order 8 and 10. For example, when the predetermined time is 3 seconds, the time difference between the reception date and time of the reception order 8 and the reception order 10 is 13 milliseconds, and is within the predetermined time. Therefore, the control unit 11 transmits the communication data of the reception order 9 Communication terminal B or C is detected as a passing terminal, and a flag of 1 is written in the passing detection item of the reception order 9.

  The formation of the peak can be determined by the radio field intensity of at least three pieces of communication data. Therefore, the control unit 11 extracts reception histories of three or more pieces of communication data whose reception date and time is within a certain time, compares the respective radio wave intensities, and transmits other communication data having the maximum radio wave intensity. Terminal B or C can also be detected as a passing terminal.

When the other communication terminal B or C is detected as a passing terminal, the display unit 14 may display the specific data of the communication data received from the other communication terminal B or C. Thereby, the message from the user of the other communication terminal B or C who has passed, the user's account name, the user ID, etc. can be provided to the user, and the opportunity of communication can be provided.
In addition, the display unit 14 may display the reception date and time of communication data in which a flag of 1 is written in the passing detection item in the reception history list 122 as the date and time when the passing occurred. Thereby, it is possible to grasp when the user has passed.

On the other hand, when the number of passing times is not two times or more (step S23; N), since the formation of the peak of the radio wave intensity cannot be determined yet, the process of steps S24 to S26 is omitted and the process proceeds to step S27.
If no radio field intensity peak is formed (step S24; N), no passing has occurred, so the processing of steps S25 and S26 is omitted and the processing proceeds to step S27.
Even when the peak of the radio field intensity is formed, but the time difference of the reception date and time exceeds a certain time (step S25; N), it can not be said that a passing has occurred, so the passing terminal is not detected and the step S27 is not performed. Move on to processing.

When all the communication data is not the detection target (step S27; N), the process returns to the process of step S22, and the control unit 11 repeats the processes of steps S22 to S26 with the new communication data as the detection target.
If all the communication data is to be detected (step S27; Y), the passing detection process is terminated.

  After completion of the passing detection process, as shown in FIG. 5, if the count value of the counter is not 0 and the reception mode time T2 has not elapsed (step S12; N), the process returns to the process of step S8 to perform wireless communication. The unit 18 continues the reception mode. When the time T2 has elapsed (step S12; Y), the wireless communication unit 18 ends the reception mode, returns to the process of step S4, and switches to the transmission mode. Thus, until the communication operation of the wireless communication unit 18 is stopped, the transmission mode and the reception mode are switched at the respective times T1 and T2, and transmission and reception of communication data are repeated.

  As described above, the communication terminal A according to the present embodiment transmits the communication data from the other communication terminal B or C by the wireless communication unit 18 that exchanges communication data with the other communication terminal B or C. When each radio wave is received, the radio wave intensity measuring unit 183 that measures the radio wave intensity at the time of reception and each radio wave intensity measured within a predetermined time by the radio wave intensity measuring unit 183 forms a peak. And a control unit 11 that detects the terminal as a passing terminal.

  Thereby, a passing terminal can be detected with high accuracy from among many communication terminals capable of exchanging communication data within a range where wireless communication is possible.

Further, the communication terminal A stores the control unit 11 that acquires the reception date and time of the communication data, the communication data received from the other communication terminal B or C, the radio wave intensity measured when the communication data is received, and the reception date and time. And a storage unit 12. The control unit 11 is the same communication data stored in the storage unit 12, and when each radio wave intensity of a plurality of communication data having a reception date and time within a certain time forms a peak, the control unit 11 transmits the communication data Are detected as passing terminals.
Thereby, a passing terminal can be detected from the reception history of communication data.

Further, the control unit 11 detects the passing terminal when the wireless communication unit 18 receives communication data from another communication terminal B or C.
Thereby, every time communication data is received, a passing terminal can be detected in real time.

The communication data includes specific data.
Message data, user profile data, identification data, etc. can be transmitted as specific data, and arbitrary data exchange is possible.

In the above-described embodiment, the wireless communication unit 18 performs only a transmission mode in which only communication data is transmitted to another communication terminal B or C, and reception of communication data transmitted from the other communication terminal B or C. Communication data is exchanged with another communication terminal B or C according to a communication protocol in which the reception mode to be performed is repeated at regular intervals.
Further, the wireless communication unit 18 switches between the transmission mode and the reception mode at the set times T1 and T2.
Therefore, communication data can be exchanged with another communication terminal B or C within a short period of time without establishing a connection.

The communication protocol is Bluetooth Low Energy.
Thereby, power consumption can be suppressed.

The above embodiment is a preferred example of the present invention, and the present invention is not limited to this. Modifications can be made as appropriate without departing from the spirit of the present invention.
For example, according to the processing procedure described above, when the communication data is received, the control unit 11 detects the passing terminal by executing the passing detection process, but the control unit 11 detects the passing terminal after receiving the communication data. You can also For example, the control unit 11 executes the above-described passing detection process when a predetermined date and time is reached after receiving communication data, when a predetermined number of passes has been reached, or when an instruction is given from the user via the operation unit 13. Then, the passing terminals may be detected together.

When the specific data in the communication data is user identification data, the control unit 11 (acquaintance determination unit) uses the identification data in the communication data received from the other communication terminal B or C to It can be determined whether the user of the communication terminal B or C is an acquaintance of the user of the communication terminal A.
Thereby, the communication method using communication data can be changed according to whether or not the user of the passing terminal is acquainted.
For example, when the profile data (for example, address book) of the acquaintance of the user of the communication terminal A is stored in the storage unit 12 and the profile data includes acquaintance identification data, the control unit 11 may select another communication terminal B or C. The identification data received from is collated with the profile data stored in the storage unit 12. When the identification data that matches the received identification data is included in the profile data, the control unit 11 can determine that the user of the other communication terminal B or C is an acquaintance of the user of the communication terminal A.

In addition, when the user of another communication terminal B or C detected as a passing terminal is determined to be an acquaintance of the user of the communication terminal A, the display unit 14 may perform display for notifying the passing of the acquaintance. . The display unit 14 can notify the passing of an acquaintance by a message, a mark, a flashing light, or the like.
By the notification, the user can easily grasp the passing with an acquaintance.
If the user can be notified, the control unit 11 may cause the call processing unit 16 and the speaker 162 to output a sound or a sound for notifying the passing of the acquaintance.

Although the embodiments of the present invention have been described above, the scope of the present invention is not limited to the above-described embodiments, and includes a scope equivalent to the scope of the invention described in the claims.
Below, the invention described in the scope of claims attached to the application of this application is added. The number of the claim described in the appendix is as in the scope of the claims originally attached to the application of this application.

[Appendix]
[Claim 1]
Wireless communication means for exchanging communication data with other communication terminals;
Radio wave intensity measuring means for measuring radio wave intensity at the time of reception each time communication data is received from the other communication terminal by the wireless communication means;
When each radio field intensity measured within a predetermined time by the radio field intensity measuring unit forms a peak, a passing detection unit that detects the other communication terminal as a passing terminal;
A communication terminal comprising:
[Claim 2]
Date and time acquisition means for acquiring the reception date and time of the communication data;
Storing the communication data received from the other communication terminal, the radio wave intensity measured at the time of receiving the communication data and the reception date and time,
The passing detection means transmits the communication data in the case where the same communication data stored in the storage means and each radio wave intensity of a plurality of communication data having a reception date and time within a certain time form a peak. The communication terminal according to claim 1, wherein another communication terminal is detected as a passing terminal.
[Claim 3]
The communication terminal according to claim 1 or 2, wherein the passing detection unit detects the passing terminal when the wireless communication unit receives the communication data from the other communication terminal or after receiving the communication data. .
[Claim 4]
The communication data includes specific data,
The communication according to any one of claims 1 to 3, further comprising display means for displaying the specific data in the communication data received from the other communication terminal when the passing terminal is detected. Terminal.
[Claim 5]
The specific data is user identification data;
Using the identification data in the communication data received from the other communication terminal, comprising acquaintance determination means for determining whether the user of the other communication terminal is acquainted,
The display means performs a display for notifying a passing of an acquaintance when a user of the other communication terminal detected as the passing terminal is determined to be an acquaintance by the acquaintance determining means. 4. The communication terminal according to 4.
[Claim 6]
The wireless communication unit repeats a transmission mode in which only communication data is transmitted to the other communication terminal and a reception mode in which only communication data transmitted from the other communication terminal is received at regular intervals. The communication terminal according to claim 1, wherein the communication data is exchanged with the other communication terminal according to a communication protocol.
[Claim 7]
The communication terminal according to claim 1, wherein the wireless communication unit switches between the transmission mode and the reception mode at a set time.
[Claim 8]
The communication terminal according to any one of claims 1 to 7, wherein the communication protocol is Bluetooth Low Energy.
[Claim 9]
A communication step of exchanging communication data with other communication terminals by wireless communication means;
Radio wave intensity measuring step for measuring radio wave intensity at the time of reception each time communication data is received from the other communication terminal by the wireless communication means;
When each radio field intensity measured within a predetermined time by the radio field intensity measurement step forms a peak, a detection step of detecting the other communication terminal as a passing terminal;
A method for detecting a passing terminal characterized by comprising:
[Claim 10]
A communication terminal computer that exchanges communication data with other communication terminals by wireless communication means,
Each time communication data is received from the other communication terminal by the wireless communication means, the radio field intensity measured at the time of reception is acquired, and when each radio field intensity obtained within a predetermined time forms a peak, the other Passing detection means for detecting a communication terminal as a passing terminal;
Program to function as.

A, B, C Communication terminal 11 Control unit 12 Storage unit 122 Reception history list 13 Operation unit 14 Display unit 15 Timekeeping unit 16 Call processing units 171, 181 and 191 Antenna 17 Communication unit 18 Wireless communication unit 182 Bluetooth module 183 Radio wave intensity measurement Part 19 Position detection part

Claims (9)

Wireless communication means for exchanging communication data with other communication terminals;
Radio wave intensity measuring means for measuring radio wave intensity at the time of reception each time communication data is received from the other communication terminal by the wireless communication means;
When each radio field intensity measured within a predetermined time by the radio field intensity measuring unit forms a peak, a passing detection unit that detects the other communication terminal as a passing terminal;
Date and time acquisition means for acquiring the reception date and time of the communication data;
Storage means for storing communication data received from the other communication terminal, the radio wave intensity measured at the time of receiving the communication data, and the reception date and time;
Equipped with a,
The passing detection means transmits the communication data in the case where the same communication data stored in the storage means and each radio wave intensity of a plurality of communication data having a reception date and time within a certain time form a peak. communication terminal characterized that you detect other communication terminal as a passing terminal. The communication terminal according to claim 1 , wherein the passing detection unit detects the passing terminal when the wireless communication unit receives the communication data from the other communication terminal or after receiving the communication data. The communication data includes specific data,
3. The communication terminal according to claim 1, further comprising a display unit configured to display the specific data in communication data received from the other communication terminal when the passing terminal is detected. The specific data is user identification data;
Using the identification data in the communication data received from the other communication terminal, comprising acquaintance determination means for determining whether the user of the other communication terminal is acquainted,
The display means performs a display for notifying a passing of an acquaintance when a user of the other communication terminal detected as the passing terminal is determined to be an acquaintance by the acquaintance determining means. 3. The communication terminal according to 3 . The wireless communication unit repeats a transmission mode in which only communication data is transmitted to the other communication terminal and a reception mode in which only communication data transmitted from the other communication terminal is received at regular intervals. The communication terminal according to any one of claims 1 to 4 , wherein the communication data is exchanged with the other communication terminal according to a communication protocol. The communication terminal according to claim 5 , wherein the wireless communication unit switches between the transmission mode and the reception mode at a set time. The communication terminal according to claim 5 or 6 , wherein the communication protocol is Bluetooth Low Energy. A communication step of exchanging communication data with other communication terminals by wireless communication means;
Radio wave intensity measuring step for measuring radio wave intensity at the time of reception each time communication data is received from the other communication terminal by the wireless communication means;
When each radio field intensity measured within a predetermined time by the radio field intensity measurement step forms a peak, a detection step of detecting the other communication terminal as a passing terminal;
A date acquisition step of acquiring a reception date of the communication data;
Storing the communication data received from the other communication terminal, the radio field intensity measured at the time of receiving the communication data, and the reception date and time;
Only including,
The detection step is the same communication data stored in the storage step, and when each radio wave intensity of a plurality of communication data having a reception date and time within a certain time forms a peak, A method for detecting a passing terminal, characterized in that the communication terminal is detected as a passing terminal. A communication terminal computer that exchanges communication data with other communication terminals by wireless communication means,
Each time communication data is received from the other communication terminal by the wireless communication means, the radio field intensity measured at the time of reception is acquired, and when each radio field intensity obtained within a predetermined time forms a peak, the other Passing detection means for detecting a communication terminal as a passing terminal;
A date acquisition means for acquiring the reception date of the communication data;
Storage means for storing communication data received from the other communication terminal, the radio wave intensity measured at the time of receiving the communication data, and the reception date and time;
Function as
The passing detection means transmits the communication data in the case where the same communication data stored in the storage means and each radio wave intensity of a plurality of communication data having a reception date and time within a certain time form a peak. A program characterized by detecting another communication terminal as a passing terminal .

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