KR101827713B1 - An apparatus for transmitting beacon signal in low power and the method thereof - Google Patents

Abstract

The present invention relates to a low power beacon signal transmitter and a method thereof which can significantly reduce power consumption of a beacon signal transmitter, and can provide a service for a longer period of time even with low power through the power consumption reduction, by transmitting a beacon signal by applying variable transmission power by time in a transmission zone of the beacon signal when the beacon signal is transmitted at a preset time period or non-periodically and randomly transmitted.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a low power beacon signal transmitting apparatus and a low power beacon signal transmitting apparatus,

The present invention relates to an apparatus and method for transmitting a low-power beacon signal, and more particularly to a low-power beacon signal transmitting apparatus and method. More particularly, the present invention relates to a low- The power consumption of the beacon signal transmitting apparatus (transmitter) can be drastically reduced, and the service can be provided for a longer period of time even by using the low power through the use of the beacon signal transmitting apparatus To a low-power beacon signal transmitting apparatus and a method thereof.

2. Description of the Related Art In recent years, the spread of wireless communication terminals such as smart phones and PDAs is spreading due to the advancement of wireless communication technology and smart technology and the breakthrough of network terminals. In accordance with this trend, a beacon technology for providing various information and services in a unidirectional manner through a wireless communication terminal is emerging in the field of wireless communication technology.

Generally, a beacon is a communication technology based on a low-power Bluetooth (Low-Energy) communication method, and is used in cooperation with an application installed in a terminal (e.g., smart phone, PDA, Provide various information and services.

When the beacon signal is received by the application of the user terminal and the dedicated service server inquires the beacon signal, the dedicated service server is provided by displaying the specific service to the user terminal through the application.

By using the beacon, it is possible to provide the user with various services and user experience (UX) such as object and situation recognition, content push, indoor location positioning, automatic check-in, and geofence.

Meanwhile, the low-power Bluetooth method is advantageous in that communication can be performed with a small power consumption by a short distance communication technology that allows information to be transmitted / received between wireless communication terminals at a short distance.

However, since conventional beacons continuously transmit a beacon signal having a constant intensity to an unspecified number of communication terminals (that is, an unspecified number of communication terminals), the power consumed by beacons is considerable even if a low-power Bluetooth communication method is used. In addition, even in the case of a user terminal using a low-power Bluetooth module, since information by beacon signal is always received and data for the beacon signal must be processed and displayed, the amount of power used also has to be considerable.

Therefore, in the present invention, instead of transmitting the beacon signal in a state in which the transmission power for transmitting the beacon signal is kept constant, the beacon signal is transmitted according to a preset period by variably controlling the transmission power, A low power beacon signal transmitting apparatus capable of normally transmitting a signal to a communication terminal within a range and capable of consuming less power than BLE, and an apparatus and method for minimizing power consumption of a user terminal.

Hereinafter, the prior art related to the present invention will be briefly described, and then, the technical matter that the present invention intends to differentiate from the prior art will be described.

Korean Patent Laid-Open Publication No. 2015-0105156 (May 20, 2015) discloses a cash receipt issuing method using a beacon, and a system and apparatus for the cash receipt issuing method. The beacon recognizes a merchant and a user and issues a cash receipt To simplify the product settlement service. This prior art automatically issues a cash receipt for a payment to a smartphone of a user through an interlock between an application provided in a smart phone, a beacon device, a POS device for payment, and a wallet service device for issuing a cash receipt .

Although the prior art describes technical features that are partially similar to the technical features of the present invention in that a specific service is provided to a wireless communication terminal on the basis of a beacon, the prior art only uses a conventional beacon technology. This is because of the characteristics of the beacons continuously transmitting beacons, the power consumed by the user terminals is very high as well as the beacons. Therefore, there is a problem in that the life cycle of the beacon is very short, so it is necessary to frequently change the battery. In the case of the user terminal, the power is turned off due to the rapid consumption of the battery, .

On the other hand, according to the present invention, the transmission power of the beacon signal is variably controlled and transmitted intermittently in accordance with a preset period, so that the beacon signal can be transmitted with low power and the power consumed by the user terminal can be minimized And the above-described technique is a different invention in the purpose, structure, and effect of the present invention.

Korean Patent Laid-Open Publication No. 2016-0071305 (Jun. 26, 2016) discloses an indoor location information providing apparatus using a beacon and a method therefor. The apparatus determines the received signal strength of a beacon signal received from a plurality of beacons, A current position is calculated by using a path loss value which is a difference between a signal strength and a transmission signal intensity of each beacon and the calculated current position is corrected on the indoor map in accordance with the expected course of the user, .

Although the prior art describes a technical feature partially similar to the present invention that provides various services to a user terminal based on a beacon in providing a user's indoor location information by using a beacon, In order to track continuously without discarding, a plurality of beacons must constantly transmit a beacon signal, so that the power consumption of each beacon must be very high, and the cost for operating a plurality of beacons is inevitably increased.

On the other hand, in the present invention, instead of transmitting a beacon signal with a constant transmission power as in the conventional technique, transmission power for transmitting the beacon signal in a transmission interval of a continuous constant beacon signal is variably controlled over time, The beacon signal can be transmitted according to a preset period, thereby minimizing the power consumption of the apparatus for transmitting the beacon signal. That is, the low power beacon signal transmitting apparatus of the present invention can transmit a beacon signal at low power by variably controlling the intensity of the transmitted beacon signal with time. Also, by disposing a plurality of low power beacon signal transmitting apparatuses having different transmission periods from each other, a beacon signal can be normally transmitted to a user terminal moving in the room, thereby enabling accurate indoor position positioning.

As described above, most of the prior arts only propose application technology using existing beacons, and the power consumption of the low-power beacon signal transmitting apparatus itself is reduced based on the transmission power and transmission period of the beacon signal as in the present invention There is no description of a technology for minimizing the operation cost of the low-power beacon signal transmitting apparatus, and for reducing the power consumption of the user terminal as a reflexive benefit.

The present invention has been made to solve the above problems, and it is an object of the present invention to provide an apparatus and method for transmitting a beacon signal according to a preset period by variably controlling a transmission power of a beacon signal differently from a conventional beacon signal continuously transmitted at a constant intensity Power beacon signal transmitting apparatus itself and minimizing the power consumption of the low-power beacon signal transmitting apparatus itself and allowing all user terminals located within the coverage of each low-power beacon signal transmitting apparatus to normally receive a beacon signal.

The low power beacon signal transmitting apparatus according to an embodiment of the present invention includes a beacon signal generating unit for generating a beacon signal, a transmission power distribution extracting unit for extracting a distribution of transmission power for low power transmission of the generated beacon signal, And a beacon signal transmitting unit for transmitting a beacon signal according to the distribution of the extracted transmission power. The beacon signal is transmitted at a low power by transmitting the beacon signal according to the extracted transmission power distribution.

Also, the distribution of the transmission power is characterized by having a constant distribution and varying with time rather than having a constant transmission power in a transmission interval of successive constant beacon signals.

The transmission period may be determined according to a preset period or may be set to change non-periodically.

Also, the distribution of the transmission power in the transmission period has a waveform shape generated by a function that varies linearly or non-linearly.

Also, the transmitted beacon signal may include an identifier (ID) of the low-power beacon signal transmitting apparatus, an output intensity of the beacon signal, or a combination thereof.

The low-power beacon signal transmitting unit may transmit the beacon signal using a low-power Bluetooth communication method, a Bluetooth communication method, a WiFi communication method, a LiFi communication method, a communication method using ultrasonic waves, or a combination thereof.

Also, the low-power beacon signal transmission apparatus may further include a function for extracting a transmission power for transmitting a beacon signal, a transmission period, an output intensity of the beacon signal, an identifier (ID) of the low-power beacon signal transmission apparatus, Or a combination of these, according to the operation environment setting unit.

According to another aspect of the present invention, there is provided a method of transmitting a low-power beacon signal, including the steps of generating a beacon signal, generating a transmission power distribution for extracting a distribution of transmission power for low-power transmission of the generated beacon signal, And transmitting the generated beacon signal according to the distribution of the extracted transmission power. The beacon signal is transmitted at a low power by transmitting the beacon signal according to the extracted transmission power distribution.

Also, the distribution of the transmission power is not a constant transmission power in a transmission interval of a certain constant beacon signal, but a distribution of a transmission power varying with time with a constant distribution and being generated by a function varying linearly or nonlinearly .

The transmission period may be determined according to a preset period or may be set to change non-periodically.

Also, the low-power beacon signal transmitting step transmits the beacon signal using a low-power Bluetooth communication method, a Bluetooth communication method, a WiFi communication method, a LiFi communication method, an ultrasonic communication method, or a combination thereof.

The low power beacon signal transmission method may further include a function for extracting transmission power for transmitting a beacon signal, a transmission period, an output intensity of the beacon signal, an identifier (ID) of the low power beacon signal transmission apparatus, Or a combination of these. The present invention is not limited to the above-described embodiments.

The present invention provides a method and apparatus for varying the transmission power of a beacon signal by linearly or nonlinearly varying the transmission power for transmitting a beacon signal, variably controlling the intensity of the transmitted beacon signal, transmitting the beacon signal according to a preset transmission period, It is possible to transmit the beacon signal at random so that a terminal provided to all users in the coverage of a specific low power beacon signal transmitting apparatus can stably receive the beacon signal and minimizes the power consumption of the low power beacon signal transmitting apparatus itself , It is possible to reduce the operating cost of the entire low-power beacon signal transmitting apparatus.

FIG. 1 is a diagram illustrating an example of providing a low-power beacon signal transmitting apparatus for transmitting a beacon signal at low power and a method for providing a service to a user terminal using the method according to an embodiment of the present invention.
2 is a diagram illustrating a beacon signal transmission power distribution according to the related art.
3 is a diagram illustrating a transmission power distribution and a transmission period of a beacon signal according to an embodiment of the present invention.
4 is a block diagram illustrating a detailed configuration of a low power beacon signal transmitting apparatus according to an embodiment of the present invention.
5 is a flowchart illustrating a process of generating and transmitting a beacon signal at low power according to an embodiment of the present invention.
6 is a diagram illustrating a process of providing an electronic receipt issuing service using a low-power beacon signal transmitting apparatus according to an embodiment of the present invention to a user.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements. Furthermore, specific structural and functional descriptions for embodiments of the present invention are presented for the purpose of describing an embodiment of the present invention only, and, unless otherwise defined, all terms used herein, including technical or scientific terms Have the same meaning as commonly understood by those of ordinary skill in the art to which the present invention belongs.

FIG. 1 is a diagram illustrating an example of providing a low-power beacon signal transmitting apparatus for transmitting a beacon signal at low power and a method for providing a service to a user terminal using the method according to an embodiment of the present invention.

1, various information and services using a beacon signal according to an exemplary embodiment of the present invention may be configured such that the low-power beacon signal transmitting apparatus 100, the application device 200, and the dedicated service server 300 interoperate And is provided to the user terminal 200.

The low-power beacon signal transmitting apparatus 100 is preferably operated based on a low-power Bluetooth communication method for transmitting a beacon signal at low power. However, according to a method of transmitting a beacon signal, a communication method using an ultrasonic wave, a wireless fidelity , A Bluetooth communication method, and a LiFi (Light Fidelity) communication method.

Further, the user can receive various information or services based on the beacon signal by installing specific information or an application (APP) for the service in the user terminal. At this time, the user terminal becomes the application device 200.

In other words, the user accesses the dedicated service server 300 or the application store (not shown) using the application device 200 to receive a specific service (e.g., an electronic receipt issuing service, a location information checking service, You can download and use the app to receive it. The application device 200 that can download or use such an app can be a smart phone, a PDA, a mobile notebook, a tab book, or the like as a user wireless communication terminal having a short range wireless communication module (particularly, a low power Bluetooth module) By receiving the beacon signal transmitted from the low power beacon signal transmitting apparatus 100 by executing the downloaded app in the application device 200 and transmitting the information about the beacon signal to the dedicated service server 300, Can be provided.

That is, the low-power beacon signal transmission apparatus 100 transmits a beacon signal including an identifier (ID) of the low-power beacon signal transmission apparatus 100, service information, transmission strength of a beacon signal, And when the user having the application device 200 enters the range of the beacon signal, the application of the application device 200 recognizes the ID, service information, and the like included in the beacon signal, To the service server (300). Thereafter, the dedicated service server 300 provides appropriate information or services to the corresponding user terminal. In order to minimize the power consumption of the low-power beacon signal transmitting apparatus 100, the low-power beacon signal transmitting apparatus 100 according to an embodiment of the present invention may adjust the size of the transmit power in the beacon signal transmitting period, And transmits it. That is, the transmission power of a certain constant beacon signal is not constant but varies with time. The distribution of the transmission power will be described in detail with reference to FIG.

As described above, the low-power beacon signal transmitting apparatus 100 of the present invention can be used for providing various information and services such as an electronic receipt issuing service, an indoor location providing service, and a content pushing. A process of providing an electronic receipt issuing service to a user using the low-power beacon signal transmitting apparatus 100 according to an embodiment of the present invention will be described in detail with reference to FIG.

Hereinafter, a transmission power distribution for transmitting a beacon signal according to a conventional technique and a method for transmitting a beacon signal by a low power beacon signal transmission apparatus 100 according to an embodiment of the present invention will be described with reference to FIG. 2 and FIG. The distribution of the transmission power and the transmission period will be described.

2 is a diagram illustrating a beacon signal transmission power distribution according to the related art.

As shown in FIG. 2, the prior art beacon continuously transmits a beacon signal of constant intensity at a transmission power of constant intensity to transmit a beacon signal to all application devices 100 located within the coverage.

That is, in the conventional beacon technique, the beacon signal of a constant intensity must continuously be used to generate and transmit the beacon signal continuously, resulting in a problem that the power consumption of the beacon signal transmitting apparatus increases.

Also, in the case of the application device 200 of the user receiving the beacon signal, the beacon signal must be continuously received and data for providing the service to the user should be always processed based on the received beacon signal. The amount of power consumed by the power source 200 is also inevitably increased. In addition, the application device 200 receiving a beacon signal from a plurality of beacons is forced to further increase the power consumption, thereby rapidly discharging the battery, and eventually turning off the power of the application device 200 to provide continuous service It may happen that it is not received.

Accordingly, in the present invention, the transmission power is variably applied according to time, unlike the conventional technique, and the power consumption of the beacon 100 is minimized by setting a transmission period, so that a plurality of beacons 100 can be efficiently operated And technical features thereof will be described in detail with reference to FIG.

3 is a diagram illustrating a transmission power distribution and a transmission period of a beacon signal according to an embodiment of the present invention.

3 (a) shows a transmission power distribution in the form of sawtooth wave with respect to time, and FIG. 3 (b) shows a transmission power distribution in the form of a triangle wave with respect to time. Also, FIG. 3C is a diagram showing a transmission power distribution in a half-wave form with respect to time.

3, the low-power beacon signal transmitting apparatus 100 according to an exemplary embodiment of the present invention transmits a beacon signal with a constant transmission power in a section (i.e., a transmission section) for transmitting a beacon signal However, it transmits the beacon signal with different output intensity by varying it with time with a constant distribution.

That is, the low-power beacon signal transmitting apparatus 100 transmits a beacon signal while increasing or decreasing the intensity of the beacon signal to a constant magnitude, rather than maintaining the intensity of the beacon signal constant. This is because the beacon signal transmitted initially can be received by the application device 200 located relatively close to the low power beacon 100 and the beacon signal transmitted at the maximum size can be received by the low power beacon signal transmitting device 100. [ Can be received by the application device 200 located at a relatively long distance. As a result, all the application devices 200 located within the coverage of the beacon 100 can receive the beacon signal in the same way as the beacon signal of a certain size is transmitted as in the conventional technique.

Also, the low-power beacon signal transmitting apparatus 100 may determine the transmission interval according to a predetermined period or change it non-periodically.

Of course, when transmitting a beacon signal according to a predetermined period, there may be an application device 200 that does not receive a beacon signal at a specific time. However, depending on the type of service, installation environment, and coverage provided using the beacon signal By appropriately arranging a plurality of low-power beacon signal transmitting apparatuses 100, this can be overcome.

For example, in the case of a service providing indoor location information, a plurality of low power beacon signal transmitting apparatuses 100 having different transmission periods are arranged in a lattice form or a mesh form so that at least three beacon signals are received So that accurate indoor position information can be provided.

4 is a block diagram illustrating a detailed configuration of a low power beacon signal transmitting apparatus according to an embodiment of the present invention.

4, a low-power beacon signal transmitting apparatus 100 includes a beacon signal generating unit 110 for generating a beacon signal, a beacon signal generating unit 110 for generating a beacon signal for advertising a plurality of users by transmitting the generated beacon signal, A transmission power distribution extraction unit 130 for extracting a transmission power distribution for the beacon signal, an operation environment setting unit 140 for setting an operation environment of the low power beacon signal transmission apparatus 100, and a memory 150 ).

The beacon signal generation unit 110 generates a beacon signal by converting the digital data to be transmitted to the plurality of application devices 200 through the low power beacon transmission apparatus 100 into an analog signal.

The transmission power distribution extraction unit 130 extracts a transmission power distribution for low power transmission of the generated beacon signal.

The transmission power distribution is extracted according to a linear or nonlinear function preset by a user in a transmission interval, and has a form of waveform according to time as shown in FIG.

That is, the transmission power distribution can be extracted in the form of various waveforms such as sawtooth wave, triangle wave, and half-wave. On the other hand, the function may be set as a one-dimensional or multidimensional function depending on the coverage range, the installation environment, and the installation number of the low-power beacon signal transmitting apparatus 100.

The beacon signal transmitting unit 120 intermittently transmits the generated beacon signal according to the transmission power distribution extracted by the transmission power distribution extracting unit 130 and the transmission period. The period may be set according to the type of the service provided to the application device 200, the coverage of the low-power beacon signal transmitting device, and the number of the installed devices.

The transmitted beacon signal may include an identifier (ID) of the low-power beacon signal transmitting apparatus 100, a simple service information, an output intensity of the beacon signal, or a combination thereof.

The operation environment setting unit 140 may set the operation environment for operation of the low power beacon signal transmitting apparatus 100 through the POS terminal 400 or the management terminal (not shown) connected to the low power beacon signal transmitting apparatus 100 Can be set.

Also, the POS terminal 400 or the management terminal may set the function for the transmission power distribution, the coverage of the low-power beacon signal transmitting apparatus 100, the transmission period, the identifier, the service information, or a combination thereof Can be set, changed, and updated.

Also, the memory 150 stores the operating environment of the low power beacon signal transmitting apparatus 100 set through the POS terminal 400 or the management terminal.

5 is a flowchart illustrating a process of generating a beacon signal according to an embodiment of the present invention and transmitting a beacon signal at a low power.

As shown in FIG. 5, the low-power beacon signal transmission apparatus 100 transmits a low-power beacon signal to the low-power beacon signal transmission apparatus 100 and stores the low-power beacon signal transmission apparatus 100 in the memory 150 S110).

Thereafter, a control unit (not shown) included in the low-power beacon signal transmission apparatus 100 operates the low-power beacon 100 according to the operating environment of the set low-power beacon 100.

Meanwhile, the operating environment includes an identifier of the low power beacon signal transmitting apparatus 100, a transmission period of a beacon signal, a function for extracting a transmission power distribution for transmitting a beacon signal, or a combination thereof.

Also, the function may be a linear or nonlinear function, and the transmission period may be set in advance by a user, but may be randomly set through a random function for determining a transmission interval.

Meanwhile, as described above, the administrator managing the low-power beacon signal transmitting apparatus 100 can change, modify, and update the operating environment according to the operating environment of the low-power beacon 100. [

Also, the operating environment may be directly connected to the management terminal or the POS terminal 400 of the administrator through a wired connection, or may be set by wirelessly connecting to the low power beacon signal transmitting apparatus 100. [

Next, the low power beacon signal transmitting apparatus 100 generates a beacon signal for transmitting data of the low power beacon signal transmitting apparatus 100 to a plurality of application devices 200 (S120).

Next, the low-power beacon signal transmitting apparatus 100 extracts a transmission power distribution for transmitting the generated beacon signal (S130).

The distribution of the transmission power is extracted by a function according to the operating environment setting, and varies linearly or nonlinearly with the passage of time in a transmission interval of the beacon signal, and has a specific waveform form.

Next, the low-power beacon signal transmitting apparatus 100 transmits the generated beacon signal periodically or aperiodically according to the extracted transmission power distribution (S140).

That is, the transmission interval may be determined according to the transmission period set by the user or may be randomly and non-periodically determined.

6 is a diagram illustrating a process of providing an electronic receipt issuing service using a low-power beacon signal transmitting apparatus according to an embodiment of the present invention to a user.

6, in order to receive a service for issuing an electronic receipt, the user first accesses the electronic receipt issuance service server 600, which is a dedicated service server 300, using the application device 200, The application is downloaded and executed (S210).

On the other hand, it is preferable that the electronic receipt issuance service application is executed in the background in the application device 200 according to the setting of the user, or automatically when the user executes the low-power Bluetooth of the application device 200 Lt; / RTI >

Next, when the user enters the electronic receipt issuing service affiliation shop (S220), the application device 200 receives the beacon signal transmitted from the low power beacon signal transmitting apparatus 100 provided in the payment apparatus 500 S230).

Next, the application device 200 extracts the information of the low-power beacon signal transmitting apparatus 100 from the received beacon signal, and transmits the extracted information and the information of the application device 200 to the electronic receipt issuing service server 600 (S240).

Meanwhile, the information of the low-power beacon signal transmitting apparatus 100 includes an ID of the low-power beacon signal transmitting apparatus 100 (in this case, the ID indicates a specific store or a settlement apparatus 500 used in the store) And may include the output intensity of the beacon signal.

The information of the application device 200 is information on a user account provided to the electronic receipt issuance service server 600 by the user in order to receive the electronic receipt issuance service. That is, when the application device 200 is a smart phone, it may include a telephone number, a credit card number for payment, a user ID, or a combination thereof.

The information of the low-power beacon signal transmitting apparatus 100 and the information of the application device 200 transmitted from the application device 200 to the electronic receipt issuing service server 600 are transmitted using a symmetric encryption algorithm, an asymmetric encryption algorithm, . Since the symmetric encryption algorithm or the asymmetric encryption algorithm is a well-known technique, a detailed description will be omitted.

Next, when the user purchases a product in the shop and makes a payment request through the POS terminal 400 provided in the settlement apparatus 500 (S250), the POS terminal 400 transmits information about the purchased product , Information on the store, and information on the application device 200 of the user to the electronic receipt issuance service server 600 (S260).

At this time, settlement is performed using the mobile credit card of the application device 200. [ It is also possible to perform settlement through NFC tagging of the application device 200. However, when the user performs payment using an offline credit card or cash rather than a mobile credit card, the employee of the store inputs information about the application device 200 of the user through the POS terminal, To the server (600).

Next, the electronic receipt issuance service server 600 receiving the payment information, the store information, and the application device information of the specific user transmits the payment information to the application device 200 of the corresponding user (S270).

Next, the electronic receipt issuing service application of the application device 200 that has received the payment information transmits an image, a price, whether or not mileage is deposited, whether or not the goods have been paid, to the application device ( 200).

Then, the user can confirm the payment information of the goods to be purchased through the electronic receipt issuing service application, finally perform settlement, and apply for issuance of the electronic receipt for settlement (S290).

Next, the electronic receipt issuance service server 600 performs payment for the corresponding product together with the user authentication, and issues an electronic receipt to the application device 200 registered in the user account (S300).

As described above, by providing the electronic receipt issuing service using the low-power beacon signal transmitting apparatus 100, it is possible to automatically settle the electronic receipt issuing service without the user's separate action, such as electronic payment using the existing NFC . In addition, it is not necessary to provide user information separately, and personal information leakage can be prevented in advance.

In addition, the user can provide the household management service and the electronic receipt issuing service application installed in the application device 200 can automatically update the expenditure according to the electronic receipt, thereby effectively managing the entire household household situation .

In addition, the user can manage the entire electronic receipt through the electronic receipt issuing service application, and can be used efficiently at year-end settlement.

As described in detail with reference to FIG. 6, when the low-power beacon signal transmitting apparatus 100 of the present invention is connected to the force terminal 400 to provide a payment service, the low-power beacon signal transmitting apparatus 100 can be turned on to reduce power consumption. However, when a plurality of low-power beacon signal transmitting apparatuses 100 are independently provided, such as providing an indoor positioning service or a content push service, By transmitting a beacon signal in accordance with the changed transmission power, the power consumption of the low-power beacon signal transmission apparatus 100 can be minimized, and the service can be continuously provided. That is, when the low power beacon signal transmitting apparatus 100 is installed independently and provides continuous service to the user, the effect of the low power beacon signal transmitting apparatus 100 of the present invention is maximized.

 As described above, the present invention relates to a low-power beacon signal transmitting apparatus and method thereof, and unlike a conventional beacon technique of continuously transmitting beacon signals of a constant intensity, By transmitting the beacon signal, all users can receive the beacon signal within the coverage of the low-power beacon, and at the same time, the power consumption of the low-power beacon can be minimized, so that the operation cost of the low-power beacon can be minimized It is effective.

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. .

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 and modifications may be made without departing from the spirit and scope of the present invention.

100: Low power beacon signal transmitting apparatus 110: Beacon signal generating unit
120: Beacon signal transmission unit 130: Transmission power distribution extraction unit
140: operation environment setting unit 150: memory
200: application device 300: dedicated service server
400: POS terminal 500: Payment device
600: Electronic receipt issuing service server

Claims (12)

A beacon signal generating unit for generating a beacon signal;
A transmission power distribution extracting unit for extracting a distribution of transmission power having a predetermined form, which is set in advance, for low power transmission of the generated beacon signal; And
And a beacon signal transmitter for transmitting the generated beacon signal with a low power according to the distribution of the extracted transmission power,
The distribution of the transmission power is not a constant transmission power in a transmission interval of successive beacon signals but may be a function that varies linearly or nonlinearly in a transmission interval set to be changed according to a preset period or non periodically And changes the output intensity of the beacon signal according to time,
Differing output intensities of the beacon signals are such that a beacon signal having a reduced output power is received by an application device located in the vicinity of the low power beacon signal transmitting device and a beacon signal having a maximum output power is received by a remote In order to allow all application devices located within the coverage to receive the beacon signal,
By arranging the low-power beacon signal transmitting apparatus in a lattice or mesh form according to a type of service, an installation environment, a coverage, or a combination thereof provided using the beacon signal, the application device can transmit a beacon signal And to prevent the beacon signal from being received at a specific time. delete delete delete The method according to claim 1,
The transmitted beacon signal,
An identifier (ID) of the low power beacon signal transmitting device, an output strength of the beacon signal, or a combination thereof. The method according to claim 1,
The low-power beacon signal transmitter includes:
Wherein the beacon signal is transmitted using a low-power Bluetooth communication method, a Bluetooth communication method, a WiFi communication method, a LiFi communication method, a communication method using ultrasonic waves, or a combination thereof. The method according to claim 1,
The low-power beacon signal transmitting apparatus includes:
A function for extracting transmit power for transmitting a beacon signal, a transmission period, an output intensity of a beacon signal, an identifier (ID) of the low power beacon signal transmitting apparatus, a coverage of the low power beacon signal transmitting apparatus, Further comprising an operation environment setting unit configured to set an environment of the low power beacon signal. A beacon signal generation step of generating a beacon signal;
A transmission power distribution extracting step of extracting a distribution of transmission power having a predetermined form in order to perform low power transmission of the generated beacon signal; And
And a beacon signal transmitting step of transmitting the generated beacon signal with low power according to the distribution of the extracted transmission power,
The distribution of the transmission power is not a constant transmission power in a transmission interval of successive beacon signals but may be a function varying linearly or nonlinearly in a transmission interval set to be changed according to a preset period or non periodically And changes the output intensity of the beacon signal according to time,
Differing output intensities of the beacon signals are such that a beacon signal having a reduced output power is received by an application device located in the vicinity of the low power beacon signal transmitting device and a beacon signal having a maximum output power is received by a remote In order to allow all application devices located within the coverage to receive the beacon signal,
By arranging the low-power beacon signal transmitting apparatus in a lattice or mesh form according to the kind of service, installation environment, coverage, or a combination thereof provided by using the beacon signal, the application device can receive a certain number of beacon signals And to prevent the beacon signal from being received at a specific time. delete delete The method of claim 8,
The low-power beacon signal transmission step includes:
Wherein the beacon signal is transmitted using a low-power Bluetooth communication method, a Bluetooth communication method, a WiFi communication method, a LiFi communication method, a communication method using ultrasonic waves, or a combination thereof. The method of claim 8,
The low power beacon signal transmission method includes:
A function for extracting transmit power for transmitting a beacon signal, a transmission period, an output intensity of a beacon signal, an identifier (ID) of the low power beacon signal transmitting apparatus, a coverage of the low power beacon signal transmitting apparatus, And setting an environment of the low power beacon signal.

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