JP2021118409A - Communication system, portable terminal, communication method, and program - Google Patents

Abstract

To provide a communication system capable of providing a user with a plurality of services even when the user can use only limited spaces, a portable terminal, a communication method, and a program.SOLUTION: A communication system 1 comprises an attendance terminal 100 and a portable terminal 200. The attendance terminal 100 comprises a transmission unit which transmits information on an attendance terminal ID stored in a storage unit to the portable terminal 200. The portable terminal 200 comprises a transmission unit which transmits information on a user ID stored in a storage unit and information on the attendance terminal ID received by a reception unit to a punching server 300 when a user starts a first application, and transmits information on a user ID identical to or different from the user ID stored in the storage unit of the portable terminal and transmitted to the first server in start of the first application by the user, when the user starts a second application and information on the attendance terminal ID received by the reception unit to a point server 400.SELECTED DRAWING: Figure 1

Description

The present invention relates to communication systems, mobile terminals, communication methods and programs.

The attendance stamping system, which assigns identification information for identifying an individual to each mobile terminal and causes the user to operate the mobile terminal at the time of stamping and transmit the identification information from the mobile terminal to the stamping server, is known. Has been done. For example, Patent Document 1 describes an attendance stamping system that stamps a mobile terminal by transmitting a personal ID (Identification) stored in the memory of the mobile terminal to a server when it detects that the mobile terminal is close to the attendance terminal. It is disclosed.

Japanese Unexamined Patent Publication No. 2015-158838

In recent years, communication terminals that give points to users who have installed a predetermined application on their mobile terminals have been installed in many stores and the like, and play a major role in increasing the frequency of visits by users. However, in a store or the like where space is limited, it may be difficult to install a communication terminal for giving points to users who visit the store and an attendance terminal for managing the attendance of staff in the store or the like. The communication system of Patent Document 1 can accept stamps by the staff's mobile terminal, but it is not expected to incorporate other services such as giving points to users who visit the store, and it is difficult from the viewpoint of security. Is. Such a problem exists not only when the attendance terminal and the communication terminal are installed in the store where the space is limited, but also when a plurality of communication terminals are installed in another space where the space is limited. There is.

The present invention has been made based on such a background, and is a communication system, a mobile terminal, a communication method, and a communication system capable of providing a plurality of services to a user even in a limited space. The purpose is to provide a program.

In order to achieve the above object, the communication system according to the first aspect of the present invention is
A communication system including a communication terminal and a mobile terminal.
The communication terminal is
A proximity detection unit that detects that the mobile terminal is in close proximity,
When the proximity detection unit detects that the mobile terminal is close to the mobile terminal, the proximity detection unit includes a transmission unit that transmits information about the communication terminal ID stored in the storage unit to the mobile terminal.
The mobile terminal
A receiving unit that receives information about the communication terminal ID transmitted from the communication terminal, and
When the user starts the first application, the information about the user ID stored in the storage unit of the mobile terminal and the information about the communication terminal ID received by the receiving unit are transmitted to the first server, and the user Related to a user ID that is the same as or different from the user ID that is stored in the storage unit of the mobile terminal when the second application is started and is transmitted to the first server when the first application is started. It includes a transmission unit that transmits information and information about a communication terminal ID received by the reception unit to a second server.

When the proximity detection unit detects that the mobile terminal is close to the communication terminal, the communication terminal generates a voice signal generation unit that generates a voice signal based on the information about the communication terminal ID stored in the storage unit of the communication terminal. Further prepare
The transmission unit of the communication terminal transmits the audio signal generated by the audio signal generation unit to the mobile terminal.
The receiving unit of the mobile terminal receives the audio signal transmitted from the communication terminal, and receives the voice signal.
The mobile terminal further includes a demodulation unit that demodulates information about the communication terminal ID from the audio signal received by the reception unit.
When the user activates the first application, the transmission unit of the mobile terminal includes information on the user ID stored in the storage unit of the mobile terminal and information on the communication terminal ID demolished by the demodulation unit. Is stored in the storage unit of the mobile terminal when the user starts the second application, and is transmitted to the first server when the first application is started. Information about a user ID that is the same as or different from the user ID and information about a communication terminal ID that has been demolished by the demodulator may be transmitted to the second server.

The communication terminal may be an attendance terminal that is installed at a predetermined position and accepts stamps by the user.

In order to achieve the above object, the mobile terminal according to the second aspect of the present invention is
A receiver that receives information about the communication terminal ID transmitted from the communication terminal, and
When the user starts the first application, the information about the user ID stored in the storage unit and the information about the communication terminal ID received by the receiving unit are transmitted to the first server, and the user second. Information about a user ID that is stored in the storage unit when the application is started and is the same as or different from the user ID that is transmitted to the first server when the first application is started is received by the receiving unit. A transmitter that sends information about the communication terminal ID to the second server,
To be equipped.

In order to achieve the above object, the communication method according to the third aspect of the present invention is
A communication method executed by a mobile terminal having a receiving unit and a transmitting unit.
A receiving step in which the receiving unit receives information regarding the communication terminal ID transmitted from the communication terminal, and
When the user starts the first application, the transmitting unit transmits the information about the user ID stored in the storage unit and the information about the communication terminal ID received in the receiving step to the first server. Information about a user ID that is the same as or different from the user ID that is stored in the storage unit when the user starts the second application and is transmitted to the first server when the first application is started, and the above. A transmission step of transmitting information about the communication terminal ID received in the reception step to the second server, and a transmission step.
including.

In order to achieve the above object, the program according to the fourth aspect of the present invention is
Computer,
Receiving means for receiving information about the communication terminal ID transmitted from the communication terminal,
When the user starts the first application, the information about the user ID stored in the storage unit and the information about the communication terminal ID received by the receiving means are transmitted to the first server, and the user makes a second. When the application is started, the information about the user ID which is stored in the storage unit and is the same as or different from the user ID which is transmitted to the first server when the first application is started is received by the receiving means. A transmission means for transmitting information about the communication terminal ID to the second server,
To function as.

According to the present invention, it is possible to provide a communication system, a mobile terminal, a communication method and a program capable of providing a plurality of services to a user even in a limited space.

It is a figure which shows the structure of the communication system which concerns on embodiment of this invention. It is a block diagram which shows the structure of the attendance terminal which concerns on embodiment of this invention. It is a block diagram which shows the structure of the mobile terminal which concerns on embodiment of this invention. (A) is a block diagram showing a configuration of a stamping server according to an embodiment of the present invention, and (b) is a diagram showing an example of a data table of a stamping information storage unit. (A) is a block diagram showing a configuration of a point server according to an embodiment of the present invention, and (b) is a diagram showing an example of a data table of a point storage unit. It is a flowchart which shows the flow of the audio signal transmission processing which concerns on embodiment of this invention. It is a flowchart which shows the flow of the stamping process which concerns on embodiment of this invention. (A) is a diagram showing an example of a stamping reception screen displayed on a mobile terminal, and (b) is a diagram showing an example of a stamping completion screen displayed on the mobile terminal. It is a flowchart which shows the flow of the check-in process which concerns on embodiment of this invention. (A) is a diagram showing an example of a check-in reception screen displayed on a mobile terminal, and (b) is a diagram showing an example of a check-in completion screen displayed on the mobile terminal.

Hereinafter, embodiments of the communication system, mobile terminal, communication method, and program according to the embodiment of the present invention will be described with reference to the drawings. In each drawing, the same or equivalent parts are designated by the same reference numerals. In the following, we will explain the case of accepting stamps for staff attendance management and giving points to users who visit stores, etc., and when it is not necessary to distinguish between "staff" and "users who visited the store". Both are collectively referred to simply as the "user".

FIG. 1 shows the configuration of the communication system 1 according to the embodiment. The communication system 1 includes an attendance terminal 100, a mobile terminal 200, a stamping server 300, and a point server 400. The attendance terminal 100 is an example of a communication terminal, and is installed at a predetermined position, for example, at a counter in the store S, accepts stamping by staff, and accepts check-in by a visiting user. The attendance terminal 100 outputs the same sound when it receives a stamp or check-in by the user. The attendance terminal 100 and the mobile terminal 200 transmit and receive data by communication using voice as a transmission medium. The mobile terminal 200, the stamping server 300, and the point server 400 all transmit and receive data via a communication network 2 such as the Internet. The stamping server 300 is an example of the first server, and the point server 400 is an example of the second server.

The flow of data in time stamping using the mobile terminal 200 will be described. First, when the staff operates the mobile terminal 200 with the application for time stamping (first application) activated, the mobile terminal 200 activates the microphone to receive the voice data from the attendance terminal 100. .. Further, when the staff brings the mobile terminal 200 close to the attendance terminal 100, the attendance terminal 100 detects that the mobile terminal 200 is close to the mobile terminal 200, and the attendance terminal ID and the RTC (Real Time Clock) time at the time of proximity detection are detected. Send information about by voice data. The attendance terminal ID is an example of a communication terminal ID for identifying the attendance terminal 100, which is an example of a communication terminal.

When the mobile terminal 200 receives the voice data from the attendance terminal 100, the information about the user ID stored in the mobile terminal 200 and the information about the attendance terminal ID and the RTC time received from the attendance terminal 100 are sent to the stamping server 300. Send. When the time stamping server 300 receives information on the user ID, attendance terminal ID, and RTC time from the mobile terminal 200, the time stamping server 300 reads the server time at the time of reception from the timekeeping unit of the time stamping server 300 and stores it in the database.

The flow of data at check-in using the mobile terminal 200 will be described. First, when a user who visits the store operates the mobile terminal 200 while the check-in service application (second application) is activated, the mobile terminal 200 uses a microphone to receive voice data from the attendance terminal 100. to start. Further, when the user who visits the store brings the mobile terminal 200 close to the attendance terminal 100, the attendance terminal 100 detects that the mobile terminal 200 is close to the mobile terminal 200, and informs the mobile terminal 200 of the attendance terminal ID and the RTC time at the time of proximity detection. Send as voice data.

When the mobile terminal 200 receives voice data from the attendance terminal 100, the point server provides information on the user ID and service ID stored in the mobile terminal 200, and information on the attendance terminal ID and RTC time received from the attendance terminal 100. Send to 400. When the point server 400 receives information on the user ID, service ID, attendance terminal ID, and RTC time from the mobile terminal 200, the point server 400 reads the total points corresponding to the user ID from the database, adds the added points, and adds the total points of the database. Update to the added total points.

FIG. 2 is a block diagram showing the configuration of the attendance terminal 100 according to the embodiment. The attendance terminal 100 is, for example, a reader / writer or the like. A reader / writer is a device that reads data stored in an IC chip when a user brings an object such as an IC card or a communication terminal having an IC (Integrated Circuit) chip close to it. The attendance terminal 100 includes an operation unit 110, a sounding unit 120, a storage unit 130, a modulation unit 140, a timekeeping unit 150, a proximity detection unit 160, a communication unit 170, and a control unit 180. Each part of the attendance terminal 100 is connected to each other so as to be able to communicate with each other via an internal bus.

The operation unit 110 accepts the user's operation and supplies the operation signal corresponding to the accepted operation to the control unit 180. The operation unit 110 includes, for example, a volume control switch, a pairing switch, and the like. Further, the operation unit 110 may be, for example, an external numeric keypad (not shown) connected to the main body of the attendance terminal 100 by a USB (Universal Serial Bus) cable.

The sounding unit 120 includes the speaker 121, D / A (digital / analog) converts the audio signal supplied from the modulation unit 140, supplies the analogized audio signal to the speaker 121, and outputs the audio to the speaker 121. do. The sound output from the speaker 121 is adjusted in advance to a volume that can be collected only in the limited store S.

The storage unit 130 includes, for example, a RAM (Random Access Memory), a ROM (Read Only Memory), a flash memory, a hard disk, and the like. The storage unit 130 stores a program executed by the control unit 180, a unique attendance terminal ID assigned to each attendance terminal 100, and the like. Further, the storage unit 130 functions as a work memory for the control unit 180 to operate.

The modulation unit 140 converts the transmission data into an audio signal under the control of the control unit 180. More specifically, the modulation unit 140 modulates the carrier wave with the transmission data supplied from the control unit 180, and outputs the modulated carrier wave (audio signal) to the sounding unit 120. Processing such as modulation of the audio signal may be performed in the same manner as that used in wired communication or wireless communication.

The timekeeping unit 150 includes an RTC that measures the current time. The RTC has, for example, a built-in battery and continues timing even while the power of the attendance terminal 100 is off. The timekeeping unit 150 supplies information regarding the RTC time to the control unit 180 in response to a request from the control unit 180.

The proximity detection unit 160 is composed of, for example, a high-frequency oscillation type proximity sensor, and detects the proximity of an object. The proximity detection unit 160 is provided on the upper surface of the housing of the attendance terminal 100. The proximity detection unit 160 detects that an object such as a mobile terminal 200 is close by the proximity sensor, and outputs a detection signal indicating the detection to the control unit 180. The term "proximity" includes not only the case where the object is close to the attendance terminal 100 in a state of being separated, but also the case where the object comes into contact with or collides with the attendance terminal 100.

The communication unit 170 is an interface capable of transmitting and receiving radio signals under the control of the control unit 180.

The control unit 180 includes a CPU (Central Processing Unit) and the like, and controls each unit of the attendance terminal 100. The control unit 180 executes the audio signal transmission process of FIG. 6 by executing the program stored in the storage unit 130. The control unit 180 functionally includes an RTC time reading unit 181 and an audio signal generation unit 182.

When the proximity detection unit 160 detects that an object such as the mobile terminal 200 is close to the RTC time reading unit 181, the RTC time reading unit 181 reads the RTC time of the attendance terminal 100 at the time of proximity detection from the time measuring unit 150.

When the audio signal generation unit 182 detects that an object such as the mobile terminal 200 is close by the proximity detection unit 160, the information regarding the attendance terminal ID stored in the storage unit 130 and the RTC read by the RTC time reading unit 181 The carrier wave is modulated by applying various signal processing to the information related to the time, and an audio signal to be output from the speaker 121 of the sounding unit 120 is generated. The speaker 121 of the sounding unit 120 outputs the same sound supplied from the audio signal generation unit 182 when an object such as the mobile terminal 200 approaches.
The above is the configuration of the attendance terminal 100.

FIG. 3 is a block diagram showing the configuration of the mobile terminal 200 according to the embodiment. The mobile terminal 200 is, for example, a smartphone. The mobile terminal 200 includes an operation unit 210, a display unit 220, a sound collection unit 230, a storage unit 240, a demodulation unit 250, a communication unit 260, and a control unit 270. Each part of the mobile terminal 200 is connected to each other so as to be able to communicate with each other via an internal bus.

The operation unit 210 receives the user's operation and supplies the operation signal corresponding to the received operation to the control unit 270. The display unit 220 displays various images, screens, and the like based on the data supplied from the control unit 270. The operation unit 210 and the display unit 220 are integrally configured by a touch panel. The touch panel displays an operation screen for accepting a predetermined operation by the user, and supplies an operation signal corresponding to a position where the user has performed a contact operation on the operation screen to the control unit 270.

The sound collecting unit 230 includes a microphone 231, converts the sound collected by the microphone 231 into an electric signal, A / D (analog / digital) converts the electric signal, and demolishes the digitized electric signal 250. Supply to.

The storage unit 240 includes, for example, a RAM, a ROM, a flash memory, and the like. The storage unit 240 stores a program executed by the control unit 270, a user ID assigned to each user, and the like. The storage unit 240 also functions as a work memory for the control unit 270 to operate.

The demodulation unit 250 converts the received audio signal into received data under the control of the control unit 270. More specifically, the demodulation unit 250 demodulates the received data from the audio signal supplied from the microphone 231 of the sound collecting unit 230, and outputs the received data to the control unit 270. For the processing such as demodulation of the audio signal, the same processing as that used in the wired communication and the wireless communication may be executed.

The communication unit 260 is an interface capable of transmitting and receiving wireless signals to, for example, the stamping server 300 and the point server 400 according to the control of the control unit 270.

The control unit 270 includes a CPU and the like, and controls each unit of the mobile terminal 200. The control unit 270 executes the stamping process of FIG. 7 and the check-in process of FIG. 9 by executing the program stored in the storage unit 240.
The above is the configuration of the mobile terminal 200.

FIG. 4A is a block diagram showing the configuration of the stamping server 300 according to the embodiment. The stamping server 300 is, for example, a general-purpose computer. The stamping server 300 includes a storage unit 310, a timekeeping unit 320, a communication unit 330, and a control unit 340. Each part of the stamping server 300 is connected to each other so as to be able to communicate with each other via an internal bus.

The storage unit 310 includes, for example, a RAM, a ROM, a flash memory, and the like. The storage unit 310 stores programs and various data to be executed in the control unit 340. The storage unit 310 also functions as a work memory for the control unit 340 to operate. Further, the storage unit 310 stores the stamp information storage unit 311.

FIG. 4B is a diagram showing an example of a data table of the stamping information storage unit 311. The stamping information storage unit 311 stores information related to the user ID, attendance terminal ID, stamping time, RTC time, stamping type, and the like. The stamping time is the current time (server time) read from the timekeeping unit 320 when the user ID or the like is received from the mobile terminal. The RTC time is a time read from the time measuring unit 150 of the attendance terminal 100 when the mobile terminal 200 approaches the attendance terminal 100. The stamp type indicates whether the stamp made by the user is attendance or departure.

The timekeeping unit 320 includes a timer for measuring the current time, and functions as an internal clock of the time stamping server 300. The server time, which is the current time measured by the time measuring unit 320, is the time information received based on the time information periodically received from the NTP (Network Time Protocol) server connected via the communication network 2 such as the Internet. Is corrected to synchronize with the current time indicated by. The NTP server is a server that distributes accurate current time data using NTP. The timekeeping unit 320 supplies information on the server time to the control unit 340 in response to a request from the control unit 340.

The communication unit 330 is an interface capable of transmitting and receiving wired or wireless signals under the control of the control unit 340. The communication unit 330 is configured to be able to communicate with, for example, the communication unit 260, the NTP server, and the like via the communication network 2.

The control unit 340 includes a CPU and the like, and controls each unit of the stamping server 300. The control unit 340 executes the stamping process of FIG. 7 by executing the program stored in the storage unit 310. The control unit 340 functionally includes a server time reading unit 341 and a stamping time registration unit 342.

The server time reading unit 341 reads the server time at the time when the information related to the user ID and the like is received from the mobile terminal 200 from the time measuring unit 320. The server time is a time corrected to synchronize with the current time received from the NTP server.

The server time registration unit 342 registers the server time read by the server time reading unit 341 as the time stamp in the time stamp information storage unit 311 in association with the information related to the attendance terminal ID and the like transmitted from the mobile terminal 200. ..
The above is the configuration of the stamping server 300.

FIG. 5A is a block diagram showing the configuration of the point server 400 according to the embodiment. The point server 400 is, for example, a general-purpose computer. The point server 400 includes a storage unit 410, a communication unit 420, and a control unit 430. Each part of the point server 400 is connected to each other so as to be able to communicate with each other via an internal bus.

The storage unit 410 includes, for example, a RAM, a ROM, a flash memory, and the like. The storage unit 410 stores the program executed in the control unit 430, various data, and the value of the addition point. The points to be added are points to be added to the total points of the user at each check-in, and are set in advance by the administrator. The storage unit 410 also functions as a work memory for the control unit 430 to operate. Further, the storage unit 410 stores the point storage unit 411.

FIG. 5B is a diagram showing an example of a data table of the point storage unit 411. The point storage unit 411 stores information on the user ID, attendance terminal ID, RTC time, addition points, and total points. The RTC time is the time read from the timekeeping unit 150 of the attendance terminal 100 when the mobile terminal 200 approaches the attendance terminal 100, as in the case of the time stamp information storage unit 311.

The communication unit 420 is an interface capable of transmitting and receiving wired or wireless signals under the control of the control unit 430. The communication unit 420 is configured to be able to communicate with, for example, the communication unit 260 via the communication network 2.

The control unit 430 includes a CPU and the like, and controls each unit of the point server 400. The control unit 430 executes the check-in process of FIG. 9 by executing the program stored in the storage unit 410. The control unit 430 functionally includes a point addition unit 431 and a point registration unit 432.

The point addition unit 431 reads the total points corresponding to the user ID transmitted from the mobile terminal 200 from the point storage unit 411, and adds the addition points stored in the storage unit 410 to the read total points.

The point registration unit 432 registers the information regarding the total points added by the point addition unit 431 in the point storage unit 411 in association with the information regarding the user ID, the attendance terminal ID, the RTC time, and the addition points.
The above is the configuration of the point server 400.

(Audio signal transmission processing)
Next, the flow of the audio signal transmission process executed by the attendance terminal 100 will be described with reference to the flowchart of FIG. The audio signal transmission process is a process of transmitting an audio signal to the mobile terminal 200 when the attendance terminal 100 detects the proximity of the mobile terminal 200. Hereinafter, it is assumed that the power is turned on to the attendance terminal 100 and the control unit 180 is activating the program stored in the storage unit 130.

First, when the control unit 180 of the attendance terminal 100 detects that an object such as a mobile terminal 200 is close to the attendance terminal 100 based on the presence or absence of a detection signal from the proximity detection unit 160 (step S11), the RTC time reading unit 181 Reads the RTC time at the time when the mobile terminal 200 approaches the attendance terminal 100 from the time measuring unit 150 in the process of step S11 (step S12).

Next, the audio signal generation unit 182 generates an audio signal based on the information on the attendance terminal ID stored in the storage unit 130 and the information on the RTC time read from the timekeeping unit 150 in the process of step S12. The generated audio signal is transmitted to the mobile terminal 200 (step S13). Specifically, the audio signal generation unit 182 generates an audio signal by processing a carrier wave based on the attendance terminal ID and the RTC time using the modulation unit 140, and the generated audio signal is used as a speaker of the sound generation unit 120. Output from 121.

Next, the control unit 180 notifies the user of the information that the stamping is completed (step S14), and returns the process to step S11. Specifically, for example, an LED (Light Emitting Diode) lamp provided on the upper surface of the attendance terminal 100 may be turned on, or an alarm, a message, or the like may be sounded from the sounding unit 120.
The above is the flow of the audio signal transmission process executed by the attendance terminal 100.

(Stamping process)
Next, with reference to the flowchart of FIG. 7, a series of flow of the stamping process executed by the mobile terminal 200 and the stamping server 300 in cooperation with each other will be described. The stamping process is a process of registering the stamping time of the user in the stamping server 300 when the user brings the mobile terminal 200 close to the attendance terminal 100 and stamps.

First, when a user who owns the mobile terminal 200 activates an application installed on the mobile terminal 200, the mobile terminal 200 causes the display unit 220 to display the stamp acceptance screen shown in FIG. 8A. The user taps the "go to work" button or the "leave work" button on the screen shown in FIG. 8A at the timing when he / she wants to stamp.

When the control unit 270 of the mobile terminal 200 receives the user's operation (step S21), the control unit 270 activates the microphone 231 to receive the audio signal from the attendance terminal 100 (step S22). When the user brings the mobile terminal 200 close to the attendance terminal 100, the control unit 180 of the attendance terminal 100 executes the audio signal transmission process of FIG. 6, and the attendance terminal 100 transmits information on the attendance terminal ID and the RTC time as an audio signal. Let me.

When the control unit 270 of the mobile terminal 200 receives the information regarding the attendance terminal ID and the RTC time from the attendance terminal 100 as an audio signal (step S23), the demodulation unit 250 demodulates the audio signal and uses it as the operation signal of the operation unit 210. Information on the stamping type based on the stamping type, information on the user ID stored in the storage unit 240, and information on the attendance terminal ID and RTC time received from the attendance terminal 100 are transmitted to the stamping server 300 via the communication network 2. (Step S24). The stamping type is determined by whether the user operates the operation unit 210 and taps either the "going to work" button or the "leaving work" button in FIG. 8A.

Next, the control unit 270 of the mobile terminal 200 controls the display unit 220 to notify the user that the attendance registration has been completed (step S25), and ends the process. Specifically, for example, the display unit 220 is made to display the stamping completion screen shown in FIG. 8B.

Next, the process executed by the stamping server 300 will be described. When the server time reading unit 341 of the stamping server 300 receives information on the user ID, attendance terminal ID, stamping type, and RTC time from the mobile terminal 200 (step S31), the user ID, attendance terminal ID, and stamping type And the server time at the time when the information regarding the RTC time is received is read from the metering unit 320 (step S32).

Next, the stamp information registration unit 342 of the stamp server 300 includes information on the user ID, attendance terminal ID, stamp type, and RTC time received in step S31, and the server time (stamp time) read in step S32. ) Is stored in the stamp information storage unit 311 (step S33), and the process ends.
The above is the flow of the stamping process.

(Check-in process)
A series of check-in processes executed by the mobile terminal 200 and the point server 400 in cooperation with each other will be described with reference to the flowchart of FIG. The check-in process is a process of adding points owned by the user and registering them in the point server 400 when the user checks in by bringing the mobile terminal 200 close to the attendance terminal 100.

First, when a user who owns the mobile terminal 200 activates an application installed on the mobile terminal 200, the mobile terminal 200 causes the display unit 220 to display the check-in reception screen shown in FIG. 10A. The user taps the "check-in" button on the screen shown in FIG. 10 (a).

When the control unit 270 of the mobile terminal 200 sequentially executes the processes of steps S21 to S23, it relates to information on the user ID and service ID stored in the storage unit 240, and the attendance terminal ID and RTC time received from the attendance terminal 100. Information is transmitted to the point server 400 via the communication network 2 (step S24).

Next, the process executed by the point server 400 will be described. When the point addition unit 431 of the point server 400 receives the information regarding the user ID, the service ID, the attendance terminal ID, and the RTC time from the mobile terminal 200 (step S41), the point addition is requested with reference to the service ID. It is determined that the total points corresponding to the user ID transmitted from the mobile terminal 200 are read from the point storage unit 411, and the added points stored in the storage unit 410 are added to the read total points (step S42).

Next, the point registration unit 432 of the point server 400 includes information on the user ID, attendance terminal ID, and RTC time received in step S41, the added points stored in the storage unit 410, and the total points added in step S42. The information related to the information is stored in the point storage unit 411 (step S43), and the information indicating that the check-in is completed (check-in completion information) including the information related to the added points and the total points is transmitted to the mobile terminal 200 (step S44). ), End the process.

Next, the process executed by the mobile terminal 200 will be described. When the control unit 270 of the mobile terminal 200 receives the check-in completion information from the point server 400 (step S24a), the control unit 270 controls the display unit 220 to notify the user that the check-in operation has been completed (step S24a). S25), the process is terminated. Specifically, for example, the display unit 220 displays the check-in completion screen shown in FIG. 10B, and the process ends.
The above is the flow of check-in processing.

As described above, in the communication system 1 according to the embodiment, when the attendance terminal 100 detects the proximity of the mobile terminal 200, information regarding the attendance terminal ID is transmitted to the mobile terminal 200, and the mobile terminal 200 is transmitted from the attendance terminal 100. When the information on the attendance terminal ID is received, the information on the user ID, the attendance terminal ID, and the like is transmitted to either the stamping server 300 or the point server 400 according to the application started by the user. Therefore, even in a store or the like where space is limited, it is possible to provide a check-in service as well as attendance management to the user.

Further, the communication system 1 according to the embodiment reads the server time at the time when the information on the attendance terminal ID and the user ID is acquired from the time measuring unit 320, and relates to the information on the attendance terminal ID and the user ID and the read server time. The information is associated with the information and registered in the stamp information storage unit 311. Therefore, it is possible to specify the time when the user performs the stamping operation without using the time of the mobile terminal 200, and it is possible to prevent the user from improperly stamping by manipulating the time of the mobile terminal 200. Further, since it is not necessary to use the RTC time of the attendance terminal 100, it is not necessary for the administrator to adjust the time of the attendance terminal 100.

The present invention is not limited to this, and the modifications described below are also possible.

(Modification example)
In the above embodiment, an example in which a check-in service for giving points at the time of visiting a store is used as a service other than attendance management has been described, but the present invention is not limited to this. For example, as a service other than attendance management, a check-in service that gives a coupon when visiting the store may be used.

In the above embodiment, the attendance terminal 100 reads the RTC time and transmits it to the mobile terminal 200, but the present invention is not limited to this. The attendance terminal 100 may at least transmit the attendance terminal ID to the mobile terminal 200, and if it is desired to improve the communication speed of voice data, it is not necessary to transmit the RTC time to the mobile terminal 200.

In the above embodiment, the attendance terminal 100 and the mobile terminal 200 transmit and receive data by communication using voice as a transmission medium, but the present invention is not limited to this. For example, data may be transmitted and received using a short-range wireless communication technology such as NFC (Near Field Communication).

In the above embodiment, the attendance terminal 100 includes the sounding unit 120 and the mobile terminal 200 includes the sound collecting unit 230, but the present invention is not limited to this. For example, the attendance terminal 100 may further include a sound collecting unit in addition to the sound collecting unit 120 so that data can be transmitted and received bidirectionally between the attendance terminal 100 and the mobile terminal 200, and the mobile terminal 200 collects data. A sounding unit may be further provided in addition to the sound unit 230.

In the above embodiment, the attendance terminal 100 includes a sounding unit 120 and a communication unit 170, but the present invention is not limited to this. When data is transmitted / received between the attendance terminal 100 and the mobile terminal 200 by communication using voice as a transmission medium, the communication unit 170 is unnecessary, and the data is wirelessly communicated between the attendance terminal 100 and the mobile terminal 200. The sounding unit 120 is unnecessary when transmitting and receiving. Further, the attendance terminal 100 may include an audio signal transmitting device including a sounding unit 120 and a radio signal transmitting device which is separate from the audio signal transmitting device and includes a communication unit 170.

In the above embodiment, the mobile terminal 200 is a smartphone, but the present invention is not limited to this. The mobile terminal 200 may be another device including a microphone that collects sound, and may be a wearable device such as an IC recorder or a smart watch.

In the above embodiment, the same user ID is transmitted both when the application for the attendance terminal is started on the mobile terminal 200 and when the application for check-in is started, but the present invention is limited to this. I can't. For example, different user IDs may be transmitted depending on whether the application for the attendance terminal is started on the mobile terminal 200 and the application for check-in is started.

In the above embodiment, the storage unit 130 of the attendance terminal 100, the storage unit 240 of the mobile terminal 200, the storage unit 310 of the stamping server 300, and the storage unit 410 of the point server 400 store various data. Is not limited to this. For example, all or part of the various data used in the above processing may be stored in an external server, computer, or the like via a communication network.

In the above embodiment, the attendance terminal 100, the mobile terminal 200, the stamping server 300, and the point server 400 operate based on the programs stored in the storage units 130, 240, 310, and 410. Not limited to this. For example, the functional configuration realized by the program may be realized by hardware.

In the above embodiment, the processing executed by the attendance terminal 100, the mobile terminal 200, the stamping server 300, and the point server 400 is stored in the storage units 130, 240, 310, and 410 by devices having the above-mentioned physical configuration. Although it was realized by executing the program, the present invention may be realized as a program or as a storage medium in which the program is recorded.

Further, the program for executing the above-mentioned processing operation can be read by a computer such as a flexible disk, a CD-ROM (Compact Disk Read-Only Memory), a DVD (Digital Versatile Disk), or an MO (Magneto-Optical Disk). A device that executes the above-mentioned processing operation may be configured by storing it in a recording medium, distributing it, and installing the program on a computer.

The above-described embodiment is an example, and the present invention is not limited thereto, and various embodiments are possible without departing from the spirit of the invention described in the claims. The components described in each embodiment and modification can be freely combined. The present invention also includes inventions equivalent to those described in the claims.

1 Communication system 2 Communication network 100 Attendance terminal 200 Mobile terminal 300 Stamping server 400 Point server 110, 210 Operation unit 120 Sound unit 121 Speaker 130, 240, 310, 410 Storage unit 140 Modulation unit 150, 320 Timing unit 160 Proximity detection unit 170, 260, 330, 420 Communication unit 180, 270, 340, 430 Control unit 181 RTC time reading unit 182 Audio signal generation unit 220 Display unit 230 Sound collecting unit 231 Microphone 250 Demodulation unit 311 Stamping information storage unit 341 Server time reading Unit 342 Stamping time registration unit 411 Point storage unit 431 Point addition unit 432 Point registration unit

Claims (6)

A communication system including a communication terminal and a mobile terminal.
The communication terminal is
A proximity detection unit that detects that the mobile terminal is in close proximity,
When the proximity detection unit detects that the mobile terminal is close to the mobile terminal, the proximity detection unit includes a transmission unit that transmits information about the communication terminal ID stored in the storage unit to the mobile terminal.
The mobile terminal
A receiving unit that receives information about the communication terminal ID transmitted from the communication terminal, and
When the user starts the first application, the information about the user ID stored in the storage unit of the mobile terminal and the information about the communication terminal ID received by the receiving unit are transmitted to the first server, and the user Related to a user ID that is the same as or different from the user ID that is stored in the storage unit of the mobile terminal when the second application is started and is transmitted to the first server when the first application is started. It includes a transmission unit that transmits information and information about a communication terminal ID received by the reception unit to a second server.
Communications system. When the proximity detection unit detects that the mobile terminal is close to the communication terminal, the communication terminal generates a voice signal generation unit that generates a voice signal based on the information about the communication terminal ID stored in the storage unit of the communication terminal. Further prepare
The transmission unit of the communication terminal transmits the audio signal generated by the audio signal generation unit to the mobile terminal.
The receiving unit of the mobile terminal receives the audio signal transmitted from the communication terminal, and receives the voice signal.
The mobile terminal further includes a demodulation unit that demodulates information about the communication terminal ID from the audio signal received by the reception unit.
When the user activates the first application, the transmission unit of the mobile terminal includes information on the user ID stored in the storage unit of the mobile terminal and information on the communication terminal ID demolished by the demodulation unit. Is stored in the storage unit of the mobile terminal when the user starts the second application, and is transmitted to the first server when the first application is started. Information about a user ID that is the same as or different from the user ID and information about a communication terminal ID that has been demolished by the demodulator are transmitted to the second server.
The communication system according to claim 1. The communication terminal is an attendance terminal that is installed at a predetermined position and accepts stamps by a user.
The communication system according to claim 1 or 2. A receiver that receives information about the communication terminal ID transmitted from the communication terminal, and
When the user starts the first application, the information about the user ID stored in the storage unit and the information about the communication terminal ID received by the receiving unit are transmitted to the first server, and the user second. Information about a user ID that is stored in the storage unit when the application is started and is the same as or different from the user ID that is transmitted to the first server when the first application is started is received by the receiving unit. A transmitter that sends information about the communication terminal ID to the second server,
A mobile terminal equipped with. A communication method executed by a mobile terminal having a receiving unit and a transmitting unit.
A receiving step in which the receiving unit receives information regarding the communication terminal ID transmitted from the communication terminal, and
When the user starts the first application, the transmitting unit transmits the information about the user ID stored in the storage unit and the information about the communication terminal ID received in the receiving step to the first server. Information about a user ID that is the same as or different from the user ID that is stored in the storage unit when the user starts the second application and is transmitted to the first server when the first application is started, and the above. A transmission step of transmitting information about the communication terminal ID received in the reception step to the second server, and a transmission step.
Communication methods including. Computer,
Receiving means for receiving information about the communication terminal ID transmitted from the communication terminal,
When the user starts the first application, the information about the user ID stored in the storage unit and the information about the communication terminal ID received by the receiving means are transmitted to the first server, and the user makes a second. When the application is started, the information about the user ID which is stored in the storage unit and is the same as or different from the user ID which is transmitted to the first server when the first application is started is received by the receiving means. A transmission means for transmitting information about the communication terminal ID to the second server,
A program to function as.

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