KR101995018B1 - Apparatus for stamp and control method thereof, and program - Google Patents

Abstract

The present invention discloses a stamping apparatus, an operation method thereof, and a program. That is, by changing the transmission power and transmission period of the beacon signal transmitted from the stamp device, it is possible to improve the recognition rate of the beacon signal in the user terminal, and by using the limitation information included in the beacon signal, It is possible to restrict processing of this beacon signal.

Description

[0001] DESCRIPTION [0002] APPARATUS FOR STAMP AND CONTROL METHOD THEREOF, AND PROGRAM [0003]

The present invention improves a recognition rate of a beacon signal in a user terminal by changing a transmission power and a transmission period of a beacon signal transmitted from a stamp device and transmits a beacon signal to a terminal other than the user terminal To a method for limiting the processing.

Recently, store owners are providing stamp services as part of the Loyalty Program to encourage visitors to visit more stores and order more at their stores.

In the case of a stamp service, an electronic stamp (hereinafter referred to as a "stamp") is displayed on a screen (hereinafter referred to as a "stamp contact screen") displayed in accordance with the execution of an application in a mobile device (hereinafter referred to as " Quot; stamp device ").

At this time, when the stamp device contacts the stamp contact screen, for example, the beacon signal including the authentication information related to the store is additionally transmitted (for example, broadcasting) by a short-distance wireless communication method (for example, BLE or Bluetooth Low Energy) And the received user terminal can perform stamping through processing (e.g., authentication) on the beacon signal.

However, in the case of a beacon signal, a difference in the reception probability (recognition rate) at the user terminal may be caused according to the transmission power and the transmission period due to the characteristics of the short-range wireless communication scheme.

Therefore, if the transmission power of the beacon signal is small or the transmission period is large, the beacon signal transmitted from the stamp device may not be received (recognized) by the user terminal to which the stamp is to be accumulated. On the contrary, If the transmission period is small, a beacon signal may be received up to peripheral terminals other than the user terminal, and peripheral beacon signals may be unnecessarily processed by the peripheral terminal.

As a result, in order to provide a high-quality stamp service, a recognition rate for a beacon signal in a user terminal to which a stamp is to be added is improved, and a new scheme for limiting the processing of a beacon signal unnecessarily when receiving a beacon signal from a peripheral terminal is required Will be.

The object of the present invention is to improve the recognition rate of the beacon signal in the user terminal by changing the transmission power and transmission period of the beacon signal transmitted from the stamp device, , And restricts processing of the beacon signal by the terminal other than the user terminal using the beacon signal limitation information.

According to a first aspect of the present invention, there is provided a stamping device for transmitting a first beacon signal having a first transmission power in contact with a screen of a user terminal, A transmitting unit for transmitting a second beacon signal having a second transmission power greater than the first transmission power; And a controller for limiting the processing of the second beacon signal by the terminal other than the user terminal in the second beacon signal.

More specifically, the restriction information is information for preventing the second beacon signal from being processed by the terminal, which does not display a screen related to the stamp device, among the terminals that have received the second beacon signal.

More specifically, the control unit may be configured to transmit a transmission start command for instructing the start of transmission of at least one of the first beacon signal and the second beacon signal and a transmission end command for instructing the end of the transmission to be shorter than a predetermined period And transmits at least one of the first beacon signal and the second beacon signal at a period shorter than the predetermined period in the transmission unit.

According to a second aspect of the present invention, there is provided a method of operating a stamping device, comprising: a first transmitting step of transmitting a first beacon signal at a first transmission power when the first beacon is in contact with a screen of a user terminal; A measuring step of measuring a contact time with the screen; And a second transmission step of, when the contact with the screen exceeds a predetermined time, transmitting a second beacon signal having a second transmission power larger than the first transmission power.

More specifically, the second beacon signal includes restriction information for restricting processing of the second beacon signal by a terminal other than the user terminal.

More specifically, the restriction information is information for preventing the second beacon signal from being processed by a terminal not displaying a screen related to the stamp device among the terminals receiving the second beacon signal.

More specifically, the method further comprises transmitting a transmission start command for instructing the start of transmission of at least one of the first beacon signal and the second beacon signal and a transmission end command for instructing the end of the transmission to be shorter than a predetermined period Period so that at least one of the first beacon signal and the second beacon signal is transmitted at a period shorter than the predetermined period.

According to a third aspect of the present invention, there is provided a program for causing a computer to execute the steps of: checking whether a beacon signal received from a stamp device includes restriction information for limiting processing of the beacon signal; A step of discriminating whether a screen related to the stamp device is displayed if it is determined that the limitation information is included; And a processing step of processing the beacon signal when it is determined that a screen related to the stamp device is displayed.

Thus, according to the stamp device, the operation method thereof, and the program according to the present invention, it is possible to improve the recognition rate for the beacon signal in the user terminal by changing the transmission power and transmission period of the beacon signal transmitted from the stamp device, By using the restriction information included in the beacon signal, it is possible to restrict the terminal other than the user terminal from processing the beacon signal.

1 is a view for explaining a configuration of a stamp service system according to an embodiment of the present invention;
2 is a view for explaining a configuration of a stamping device according to an embodiment of the present invention.
3 is a diagram for explaining transmission power change of a beacon signal according to an embodiment of the present invention;
4 is a diagram for explaining a command transfer structure according to an embodiment of the present invention;
5 is a diagram for explaining a change of a transmission period of a beacon signal according to an embodiment of the present invention;
FIG. 6 illustrates a configuration of a user terminal according to an embodiment of the present invention; FIG.
7 is a view for explaining an operational flow in a stamping device according to an embodiment of the present invention;
8 is a diagram for explaining an operational flow in a user terminal according to an embodiment of the present invention;

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a diagram illustrating a configuration of a stamp service system according to an embodiment of the present invention.

1, a stamp service system according to an embodiment of the present invention has a configuration including a stamp device 100, a user terminal 200, and a service server 300. As shown in FIG.

The stamping device 100 refers to a device provided in a store for a stamping service and allows the user terminal 200 to be stamped through contact with the user terminal 200. [

For example, when the stamp device 100 contacts a stamp contact screen displayed on the user terminal 200, the beacon signal including the authentication information is transmitted to the user terminal 200, So that a series of operations related to stamping can be performed.

Here, the beacon signal can be transmitted using various short-range wireless communication schemes. In an embodiment of the present invention, the short-range wireless communication scheme is assumed to be a Bluetooth low energy (BLE) scheme .

On the other hand, the authentication information transmitted through the beacon signal includes, for example, store identification information of the store where the stamp device 100 is provided and OTP (One-Time Password) that is generated in the stamp device 100 in order to prevent the stamp from being stolen .

The user terminal 200 refers to a mobile device held by a user visiting a store, and can use the stamp service through the execution of an application installed in association with the stamp service.

For example, the user terminal 200 displays a stamp contact screen according to the execution of an application, receives a beacon signal transmitted from the stamp device 100 at a point of time of contact between the stamp contact device and the stamp device 100 .

On the other hand, the user terminal 200 performs the stamping procedure through processing on the beacon signal received from the stamping apparatus 100, and displays the stamping result on the screen.

Here, the processing for the beacon signal may include, for example, an operation of transmitting authentication information extracted by recognizing a beacon signal to the service server 300 to request authentication, and receiving an authentication result from the service server 300 However, the present invention is not limited thereto, and other operations may be added or deleted depending on the service method.

The user terminal 200 may be, for example, a smart phone, a tablet PC, a PDA, or the like, and may include any device capable of executing an application that is not limited thereto and capable of supporting BLE.

The service server 300 refers to a server that processes authentication and processes an authentication request received from the user terminal 200 and transmits the processing result to the user terminal 200 in the form of an ACK (authentication success) / NACK (authentication failure) To the terminal 200.

To this end, the service server 300 recognizes a unique OTP generation pattern that is generated differently for each stamp device 100 provided in the store, maps the OTP pattern to the store identification information, and manages the OTP pattern as store information .

Accordingly, when the store identification information and the OTP are received from the user terminal 200 according to the authentication request, the service server 300 verifies whether the received information matches the stored information, It can handle the request.

For reference, the service server 300 may provide not only the above-mentioned authentication processing but also various supplementary services such as managing the stamp accumulation status for each store or user, and providing statistical data therefor.

Meanwhile, in the stamping device 100 according to an embodiment of the present invention, a beacon signal including authentication information is transmitted through the BLE method.

For reference, according to a standardization standard related to BLE (e.g., BT4.0 Spec), a transmission mode for transmitting a beacon signal is classified into a non-connectable mode and a connectable mode.

Here, the non-connection mode refers to a transmission mode used by the sender to transmit information (broadcasting) without establishing a connection between the sender and the receiver (e.g., pairing). In the connection mode, Quot; transmission mode "

In this regard, in the case of the stamp service according to an embodiment of the present invention, authentication information of a small size can be transmitted unidirectionally according to the characteristics of the service, and a quick response to the information transmission at the transmitting end corresponds to the application service field required at the receiving end Therefore, it follows the connection mode of the above-mentioned transmission modes.

As a result, in the stamp device 100 according to an embodiment of the present invention, a beacon signal including authentication information is broadcast in a unidirectional manner without establishing a connection with the user terminal 200 according to the non-connection mode.

In the case where the stamp device 100 transmits the authentication information through the beacon signal according to the non-connection mode, there is a possibility that the surrounding terminal may receive the authentication information in addition to the user terminal 100 to which the stamp is to be added, Misuse or misuse may occur.

As described above, in order to solve the problem that the authentication information is transmitted to the peripheral terminal other than the user terminal 100 to which the stamp is to be added, there may be a basic method of minimizing the transmission range of the beacon signal by reducing the transmission power of the beacon signal.

However, when the transmission power of the beacon signal is unconditionally reduced according to the above method, there is also a limit that the authentication information may not be transmitted to the user terminal 100, which is a target of stamping, in addition to peripheral terminals.

As a result, a new scheme for increasing the recognition rate of the beacon signal in the user terminal 100 to which the stamp is to be added and preventing authentication information from being transmitted to peripheral terminals not subject to stamping is required.

On the other hand, when the stamp device 100 follows the non-connection mode, the beacon signal must be periodically transmitted according to a predetermined period (hereinafter, referred to as a 'specification transmission period'). 100ms, which corresponds to a cycle that is five times larger than the minimum value of the spec transmission period set in the connection mode, which is 20ms.

Here, the difference in the specification transmission period between the non-connection mode and the connection mode can greatly affect the recognition rate for the beacon signal in the user terminal 200. In this case, The recognition rate for the beacon signal is lower than the connection mode.

As a result, in order to increase the recognition rate of the beacon signal in the user terminal 100, a new scheme for transmitting the beacon signal at a period shorter than the specification transmission period is also required without changing the specification transmission period defined in the non-connection mode will be.

Accordingly, in one embodiment of the present invention, a method for improving the recognition rate of the beacon signal in the user terminal 200 to be stamped and limiting the processing of the beacon signal in the peripheral terminal is proposed. The configuration of the stamp device 100 and the user terminal 200 will be described in detail.

First, the configuration of the stamping apparatus 100 according to an embodiment of the present invention will be described with reference to FIG.

2, the stamp device 100 according to an exemplary embodiment of the present invention includes a transmitter 110 for transmitting a beacon signal, and a controller 120 for controlling transmission of a beacon signal. .

Here, the transfer unit 110 may be implemented in the form of a hardware module supporting a communication function of the BLE method, and in the case of the control unit 120, in the form of a software module implemented by an application installed in the stamp device 100 Can be implemented.

The stamp device 100 according to an exemplary embodiment of the present invention may further include a contact portion 130 that is in contact with the stamp contact surface of the user terminal 200 through the electrostatic touch method, Lt; / RTI >

The stamping device 100 according to the embodiment of the present invention improves the recognition rate for the beacon signal in the user terminal 200 and limits the processing of the beacon signal in the peripheral terminal through the above configurations. Hereinafter, each configuration in the stamp device 100 will be described in more detail.

The transmitting unit 110 performs a function of transmitting a beacon signal.

More specifically, the transmission unit 110 transmits a beacon signal at a first transmission power under the control of the control unit 120 that has confirmed the contact between the contact unit 130 and the stamp contact screen of the user terminal 200.

Herein, the first transmission power refers to a predetermined minimum transmission power in order to prevent a beacon signal from being received at terminals other than the user terminal 200, and hereinafter, a beacon signal transmitted with this first transmission power is referred to as a first Beacon signal.

In this case, the first beacon signal includes authentication information related to stamping, and the user terminal 200 receiving the first beacon signal transmits the authentication information recognized from the first beacon signal to the service server 300, The stamping can be performed through processing on the signal.

It is needless to say that the first transmission power may be a minimum size that can receive a beacon signal from the user terminal 200 and may be reduced or increased in accordance with the reception sensitivity of the user terminal 200. [

The first transmission power may be set or changed by an operator operating the stamp device 100 or may be set or changed in the stamp device 100 according to a separate control from the service server 300 Of course.

The transmission unit 110 transmits the second beacon signal at the second transmission power under the control of the control unit 120 which confirms that the contact between the contact unit 130 and the user terminal 200 is maintained for a predetermined period of time .

Here, the second transmission power refers to the transmission power that is higher than the first transmission power for the purpose of improving the recognition rate for the beacon signal in the user terminal 200, and hereinafter, the beacon signal Will be referred to as a second beacon signal.

At this time, the second beacon signal includes authentication information similar to the first beacon signal, and the user terminal 200 receiving the second beacon signal transmits the authentication information recognized from the second beacon signal to the service server 300 The stamping can be performed through the same process for the beacon signal.

However, unlike the first beacon signal in the case of the second beacon signal, restriction information for limiting the processing of the second beacon signal by the terminal other than the user terminal 200 is included. Hereinafter, the control unit 120 will be described in detail.

The second transmission power may be sufficient to minimize the possibility of receiving a beacon signal from a user terminal 200 and a neighboring terminal. As with the first transmission power, the second transmission power may be determined according to reception sensitivity of the user terminal 200 and adjacent terminals. It is needless to say that the size thereof may be reduced or increased.

This second transmission power may also be set or changed by, for example, an operator operating the stamping device 100, or may be set or changed in the stamping device 100 according to separate control from the service server 300 Of course.

The control unit 120 controls transmission of the first beacon signal.

More specifically, the controller 120 controls the transmitter 110 to transmit the first beacon signal when the contact between the contact 130 and the user terminal 200 is confirmed.

The specific operation of the control unit 120 will be described with reference to FIG.

3, when the touch event corresponding to the contact between the contact unit 130 and the stamp contact screen of the user terminal 200 occurs, the control unit 120 transmits the first beacon signal for causing, for example, by entering a normal mode, and to start a first timer (T _{Touch Down),} the first timer (T _{Touch Down),} the transmission unit 110 up to before the end control to transmit a first beacon signal do.

However, when a touch cancel event (Touch Up) occurs, in which the contact between the contact unit 130 and the user terminal 200 is released after the first timer (T _{Touch Down} ) starts, 1 control to stop the transmission of the first beacon signal even if the first touchdown timer (T _{Touch Down} ) has not ended.

In addition, the controller 120 controls transmission of the second beacon signal.

More specifically, when it is confirmed that the contact between the contact unit 130 and the user terminal 200 is maintained for a certain period of time, the control unit 120 controls the transmitter 110 to increase the transmission power of the beacon signal 2 beacon signal.

The control unit 120 recognizes the first beacon signal transmitted from the transmission unit 110 from the user terminal 200 when the contact between the contact unit 130 and the user terminal 200 is maintained for a predetermined time Or not received at all.

Accordingly, the control unit 120 controls the transmitting unit 110 to transmit the second beacon signal by raising the transmission power of the beacon signal so that the second beacon signal with the increased transmission power is normally received from the user terminal 200 So that it can be processed.

At this time, the controller 120 controls the transmitter 110 to temporarily transmit the second beacon signal, so that the time when the second beacon signal with the increased transmit power can be exposed to terminals other than the user terminal 200 .

According to an embodiment of the present invention, in order to control the transmission of the second beacon signal in the control unit 120, a state in which contact between the contact unit 130 and the stamp contact screen of the user terminal 200 is maintained for a predetermined time, (120). ≪ / RTI >

However, the present invention is not limited to the above-described method. For example, a method of checking whether a response signal to the beacon signal is received from the user terminal 200 within a predetermined time, or a method of allowing the stamp device 100 to arbitrarily transmit Or a method of instructing the stamping device 100 to transmit the second beacon signal to the service server 300 may be applied.

A specific operation of the controller 120 will be described with reference to FIG.

3, the control unit 120 is in-contact event (Touch Down) Since according to the generation start the first timer (T _{Touch Down),} the first timer contact event after the end time (T _{Touch Down)} ( Touch Down) is maintained, the controller 110 controls the transmitter 110 to transmit the second beacon signal by raising the transmission power of the beacon signal, for example, by entering the turbo mode for transmission of the second beacon signal.

At this time, when a touch-down event (touch-up) occurs in the entry state into the turbo mode, the controller 120 starts a second timer (T _Turbo ) provided for temporary transmission of the second beacon signal, The transmission unit 110 controls to stop the transmission of the second beacon signal until the end of the second timer T _Turbo .

The controller 120 controls the transmitter 110 to resume transmission of the second beacon signal when a touch event occurs before the second timer T _Turbo ends, The timer (T _Turbo ) is reset and stopped.

Thereafter, when the touch-down event (touch-up) occurs again after the control unit 120 controls the transmission unit 110 to resume transmission of the second beacon signal according to the occurrence of the touch event The second timer T _Turbo which has been reset and stopped is restarted and the transmission unit 110 controls to stop the transmission of the second beacon signal until the end of the second timer T _Turbo .

If the touch event does not occur until the end of the second timer T _Turbo , the control unit 120 returns to the normal mode. If the touch event occurs in the touch event ), The first timer (T _{Touch Down} ) is restarted and the transmission unit 110 controls to transmit the first beacon signal until the restarted first timer (T _{Touch Down} ) ends.

In addition, the control unit 120 restricts processing of the second beacon signal by a terminal other than the user terminal 200.

More specifically, when controlling the transmission unit 110 to transmit the second beacon signal, the control unit 120 transmits restriction information for restricting processing of the second beacon signal by the terminal other than the user terminal 200 2 beacon signals.

Here, in the case of the restriction information, in the terminal that receives the second beacon signal whose transmission power is upward, the terminal related to the stamp device 100, that is, the terminal that does not display the stamp contact screen indicating the execution state of the application, Information to prevent processing.

As a result, according to the restriction information included in the second beacon signal, the second beacon signal received by the user terminal 200 in a state in which the stamp contact screen is displayed among the terminals receiving the second beacon signal is processed, The second beacon signal can be ignored according to the above restriction information in the case of the remaining terminals where the stamp contact screen is not displayed.

Here, ignoring the second beacon signal means that no processing is performed on the beacon signal. For example, the authentication information is extracted from the beacon signal, but the authentication information extracted to the service server 300 is not transmitted, But may be defined as other various operations such as not extracting the authentication information from the signal and conveying the authentication information.

For example, when the second beacon signal is received in the OFF state of the LCD screen with respect to the above restriction information, if the terminals following the scenario of switching the LCD screen to the ON state are crowded in the transmission range of the second beacon signal .

In this case, since the restricted information is included in the second beacon signal received by the clusters, even if the second beacon signal is received, the second beacon signal can be ignored according to the above restriction information , It is possible to prevent unnecessary operations such as switching the LCD screen to the ON state.

On the other hand, in the case where the control unit 120 inserts the restriction information into the second beacon signal, for example, the first beacon signal and the specific bit commonly designated in the second beacon signal (e.g., The bit value of the turbo bit is changed.

A particular bit in the first beacon signal (Turbo bit) A particular bit in the second beacon signal (Turbo bit) Bit value '0' The bit value '1'

For example, in the case of incorporating the restriction information into the second beacon signal, various methods such as a method of inserting a specific bit value, a tag, or the like only into the second beacon signal, Of course, can be applied.

In addition, the control unit 120 changes the transmission period of the first beacon signal and the second beacon signal.

More specifically, before controlling the transmission unit 110 to transmit the first beacon signal or the second beacon signal, the control unit 120 determines whether the first beacon signal and the second beacon signal in the user terminal 200 The transmission period of at least one of the first beacon signal and the second beacon signal is changed.

Here, in the case of changing the transmission period, for example, only the first beacon signal or the second beacon signal may be targeted, or both the first beacon signal and the second beacon signal may be targeted.

Hereinafter, description will be made on the premise that the first and second beacon signals are changed in the same transmission period.

For this, the control unit 120 transmits a transmission start command for instructing the start of transmission of the first beacon signal and the second beacon signal and a transmission end command for instructing the end of the transmission to the transmission unit 110 The transmission unit 110 controls to transmit the first beacon signal and the second beacon signal at a period shorter than the specification transmission period.

Here, the transmission start command includes, for example, authentication information to be included in the first beacon signal and the second beacon signal, and information related to the specification transmission period, while in the case of the transmission end command, information related to the authentication information and the specification transmission period It does not need to be included.

4, the commands generated by the control unit 120 are transmitted to the final hardware through the BLE protocol stack. The commands are generated from the control unit 120 located at the application layer, And may be transmitted to the corresponding transmission unit 110.

In the BLE protocol stack, information included in the command (e.g., authentication information, specification transmission period) is formatted in a form suitable for wireless transmission.

Hereinafter, the operation of the controller 120 according to an embodiment of the present invention for changing the transmission period for the first beacon signal and the second beacon signal will be described in detail with reference to FIG.

First, to help understand the operation of the controller 120 for changing the transmission period for the first beacon signal and the second beacon signal, the controller 120 transmits the first beacon signal and the second beacon signal according to the specification transmission period Will be described with reference to Fig. 5 (a).

As shown in FIG. 5A, when the control unit 120 follows the conventional scheme, a transmission start command (Beacon Tx START) for instructing the start of transmission of the first beacon signal and the second beacon signal is transmitted to the transmission unit 110).

The transmission unit 110 transmits a specification transmission cycle (for example, 100 ms) from the time when the transmission start command (Beacon Tx START) is received until the transmission end command (Beacon Tx STOP) is received from the controller 110, It is possible to transmit the first beacon signal and the second beacon signal at the time of arrival of the first beacon signal.

Next, a case in which the controller 120 changes the transmission period of the first beacon signal and the second beacon signal according to an embodiment of the present invention will be described with reference to FIG. 5B.

As shown in FIG. 5B, the control unit 120 transmits a transmission start command (Beacon Tx START) for commanding the transmission of the first beacon signal and the second beacon signal and a transmission end command And transmits a transmission end command (Beacon Tx STOP) for command to the transmission unit 110.

However, the control unit 120 repeats the transmission start command (Beacon Tx START) and the transmission termination command (Beacon Tx STOP) every time the timer is updated with a timer updated at a shorter period than the specification transmission period, ).

Accordingly, since the transmission unit 110 transmits the first beacon signal and the second beacon signal at the time when a transmission start command (Beacon Tx START) is received, the transmission unit 110 transmits a first beacon signal and a second beacon signal, : 50 ms), the first beacon signal and the second beacon signal can be transmitted.

As a result, in the user terminal 200, the first beacon signal and the second beacon signal are received more frequently than in the case of following the existing specification transmission period, and thereby, the first beacon signal and the second beacon signal in the user terminal 200 Can be expected to be improved.

Hereinafter, a specific configuration of the user terminal 200 according to an embodiment of the present invention will be described with reference to FIG.

As shown in FIG. 6, the user terminal 200 according to an embodiment of the present invention includes a confirmation unit 220 for checking restriction information included in a beacon signal, a determination unit 220 for determining whether processing for a beacon signal is possible, (230), and a processing unit (240) for processing a beacon signal.

Here, the entire configuration or at least a part of the configuration of the user terminal 200 including the verification unit 220, the determination unit 230, and the processing unit 240 may be implemented in the form of a software module implemented by an application related to the stamp service .

In addition, the user terminal 200 according to an embodiment of the present invention further includes a receiving unit 210 in addition to the above-described configuration. In the case of the receiving unit 210, And can be implemented in a module form.

As a result, the user terminal 200 according to an embodiment of the present invention determines whether or not to process the beacon signal received from the stamp device 100 through the above configurations. Hereinafter, the user terminal 200 Each configuration will be described more concretely.

The confirmation unit 220 performs a function of checking whether restriction information is included.

More specifically, when the beacon signal transmitted from the stamp device 100 is received through the receiver 210, the confirmation unit 220 checks whether the restriction information is included in the received beacon signal.

At this time, when it is confirmed that the beacon signal includes the restriction information, the confirmation unit 220 can confirm that the received beacon signal is the second beacon signal transmitted from the stamp device 100 at the second transmission power, On the other hand, if it is confirmed that the restriction information is not included, it can be confirmed that the received beacon signal is the first beacon signal transmitted from the stamp device 100 at the first transmission power.

The determination unit 230 performs a function of determining whether the beacon signal can be processed.

More specifically, when the beacon signal received from the stamp device 100 is determined to be the second beacon signal including the limitation information, the determination unit 230 determines whether processing for the beacon signal is possible.

At this time, the determination unit 230 can determine that the beacon signal can be processed only when the stamp contact screen capable of contacting the stamp device 100 is displayed on the screen.

Here, the fact that the stamp contact screen is displayed means that the application related to the stamp service is being executed. Conversely, the fact that the stamp contact screen is not displayed means that the application related to the stamp service is not running .

When the beacon signal including the restriction information is received while the stamp contact screen is not displayed, the determination unit 230 determines that the beacon signal transmitted to the other terminal is erroneously received It is assumed that no processing is performed on the beacon signal.

The processing unit 240 performs a function of processing a beacon signal.

More specifically, when it is determined that the processing for the beacon signal is possible, the processing unit 240 performs the stamping procedure through processing for the beacon signal, and displays the stamping result on the screen.

At this time, the processing unit 240 transmits the authentication information extracted through the recognition of the beacon signal to the service server 300, requests the authentication, and receives the authentication result from the service server 300, Can be performed.

As described above, according to the stamp device 100 and the user terminal 200 according to the embodiment of the present invention, the transmission power and the transmission period of the beacon signal transmitted from the stamp device 100 are changed according to the situation The recognition rate of the beacon signal in the user terminal 200, which is the object of the stamp accumulation, can be improved.

According to the stamp device 100 and the user terminal 200 according to the embodiment of the present invention, the beacon signal includes limitation information for restricting processing of a beacon signal in a terminal other than the user terminal 200, It is possible to prevent a beacon signal from being unnecessarily processed in a terminal in which a stamp contact screen is not displayed among the terminals receiving the beacon signal.

Hereinafter, the operation flow in the stamp device 100 and the user terminal 200 according to an embodiment of the present invention will be described in detail with reference to FIGS. 7 and 8. FIG. For convenience of explanation, the above-mentioned FIG. 2 to FIG. 6 will be referred to.

7, the operation of the stamping apparatus 100 according to an embodiment of the present invention will be described.

First, the controller 120 controls the transmitter 110 to transmit the first beacon signal when the contact between the contact 130 and the user terminal 200 is confirmed (S110 - S130).

In this case, the control unit 120 may be configured to increase the recognition rate of the first beacon signal in the user terminal 200 through the step 'S120' before controlling the transmission unit 110 to transmit the first beacon signal The transmission period of the first beacon signal is changed.

To this end, the control unit 120 transmits a transmission start command for instructing the start of transmission of the first beacon signal and a transmission end command for instructing the end of transmission to the transmission unit 110 to be shorter than the specification transmission period.

As a result, the transmitting unit 110 transmits the first beacon signal in a shorter period than the specification transmission period in step 'S130' in accordance with the transmission start command and the transmission end command received from the controller 120. [

If it is confirmed that the contact between the contact part 130 and the stamp contact screen of the user terminal 200 is maintained for a certain period of time, the control part 120 controls the transmission part 110 to increase the transmission power of the beacon signal, And controls to transmit the beacon signal (S140 - S170).

At this time, before controlling the transmission unit 110 to transmit the second beacon signal, the control unit 120 restricts processing of the second beacon signal from the terminal other than the user terminal 200 through step 'S150' Lt; RTI ID = 0.0 > beacon < / RTI >

Here, the restriction information indicates that the second beacon signal is not processed in the terminal related to the stamp device 100, that is, the terminal that does not display the stamp contact screen through the execution of the application among the terminals receiving the second beacon signal whose transmission power is upward Information to avoid.

Subsequently, the control unit 120 changes the transmission period of the second beacon signal for the purpose of improving the recognition rate of the second beacon signal in the user terminal 200 through step 'S160'.

As in the case of the first beacon signal, a transmission start command for instructing the start of transmission of the second beacon signal and a transmission end command for instructing the end of transmission are transmitted to the transmission unit 110 at a shorter period than the specification transmission period .

As a result, the transmitting unit 110 transmits the second beacon signal at a shorter period than the specification transmission period through step S180 according to the transmission start command and the transmission end command received from the controller 120. [

Thus, only the user terminal 200 displaying the stamp contact screen among the terminals receiving the second beacon signal processes the received second beacon signal according to the restriction information included in the second beacon signal, and performs stamping The second beacon signal can be ignored according to the restriction information of the remaining terminals whose stamp contact screen is not displayed.

Hereinafter, an operation flow in the user terminal 200 according to an embodiment of the present invention will be described with reference to FIG.

First, when the beacon signal transmitted from the stamp device 100 is received through the reception unit 210, the confirmation unit 220 determines whether restriction information is included in the received beacon signal (S210-S220).

At this time, when it is confirmed that the beacon signal includes restriction information, the confirmation unit 220 can confirm that the received beacon signal is the second beacon signal transmitted from the stamp device 100 at the second transmission power, On the contrary, if it is determined that the restriction information is not included, it can be confirmed that the received beacon signal is the first beacon signal transmitted from the stamp device 100 at the first transmission power.

When it is determined that the beacon signal received from the stamp device 100 is the second beacon signal including the restriction information, the determination unit 230 determines whether processing for the beacon signal is possible (S230).

At this time, if the stamp contact screen capable of contacting the stamp device 100 is displayed on the screen, the determination unit 230 can determine that the process for the beacon signal is possible.

Here, the fact that the stamp contact screen is not displayed means that the application related to the stamp service is not in the running state. This means that the second beacon signal transmitted to the other terminal is erroneously received ≪ / RTI >

In this case, the determination unit 230 may not perform any processing on the received beacon signal.

If it is determined in step S230 that the beacon signal can be processed, the processing unit 240 performs the stamping procedure through processing for the beacon signal and displays the stamping result on the screen (S240) .

At this time, the processing unit 240 transmits the authentication information extracted through the recognition of the beacon signal to the service server 300, requests the authentication, and receives the authentication result from the service server 300, Can be performed.

As described above, according to the operation flow in the stamp device 100 and the user terminal 200 according to the embodiment of the present invention, the transmission power and the transmission period of the beacon signal transmitted from the stamp device 100 The recognition rate of the beacon signal in the user terminal 200, which is the object of the stamp accumulation, can be improved.

According to the operation flow in the stamp device 100 and the user terminal 200 according to the embodiment of the present invention, restriction information for restricting processing of a beacon signal by a terminal other than the user terminal 200 is transmitted as a beacon signal It is possible to prevent a beacon signal from being unnecessarily processed in a terminal in which a stamp contact screen is not displayed among terminals receiving a beacon signal.

Meanwhile, the steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied directly in hardware, or may be embodied in a computer readable medium, in the form of a program instruction, which may be carried out through various computer means. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

According to an embodiment of the present invention, there is provided a stamp device, an operation method thereof, and a program, which improve a recognition rate for a beacon signal in a user terminal by changing a transmission power and a transmission period of a beacon signal transmitted from a stamp device, Signal limitation information to limit the processing of the beacon signal by the terminal other than the user terminal. Therefore, the present invention is not limited to the use of the related art, It is an invention that is industrially applicable because it has enough possibilities of business and can be implemented practically and clearly.

100: Stamping device
110: Transmission unit 120:
130:
200: user terminal
210: Receiving unit 220:
230: discrimination unit 240:

Claims (8)

delete delete delete delete delete delete delete A step of confirming whether or not the beacon signal received from the stamp device includes restriction information for limiting processing of the beacon signal, the beacon signal including authentication information for stamping, Information for restricting execution of stamping by using a stamp;
A step of discriminating whether a screen related to the stamp device is displayed if it is determined that the limitation information is included; And
And a processing step of processing the beacon signal and performing stamp accumulation when it is determined that a screen related to the stamp device is displayed.

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