KR101996002B1 - Beacon for processing user's fingerprint information and method for information providing service - Google Patents

Abstract

Beacons are initiated. The beacon includes a beacon processor for executing software including a fingerprint recognizer, a memory for storing a beacon ID, a wireless transceiver, and a counter. Wherein the beacon processor in the idle state changes to a wakeup state in response to the fingerprint information when the fingerprint information of the user is recognized through the fingerprint recognizer and the beacon processor in the wakeup state uses the counter The beacon ID is read from the memory, the beacon information including the read beacon ID and the fingerprint information is generated and transmitted to the wireless transceiver, Stopping transmission of the beacon information to the radio transceiver to reduce power consumption of the beacon when a count value generated according to the count operation matches a reference count value according to the control of the software, And enters the idle state again from the wakeup state.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a beacon processing method and a beacon processing method,

The embodiment according to the concept of the present invention is characterized by including a beacon that generates and broadcasts beacon information including fingerprint information of a user of the mobile communication terminal, a fingerprint information included in the beacon information, And an information providing service method using the beacon. [0003] 2. Description of the Related Art [0004]

The beacon may be installed in an offline environment and may be a device capable of broadcasting a signal in the off-line environment using a wireless communication technology. According to an embodiment, a beacon may broadcast the signal using bluetooth low energy (BLE). For example, the beacon 200 may utilize a short-range wireless communication scheme based on the BLE 4.0 protocol.

Although the beacon is widely used as the Internet technology has been developed recently, a user located in the environment where the beacon is installed may feel inconvenience due to beacon signals broadcast indiscriminately from the beacon.

Korean Patent Laid-Open Publication No. 10-2016-0124427 (Oct. 28, 2016) Korean Patent Laid-Open Publication No. 10-2015-0105802 (Feb.

The problem to be solved by the present invention is that the special information is provided only through a special action of the user of the mobile communication terminal to obtain special information from the operation server (for example, an action of touching the fingerprint of the user to the beacon fingerprint reader of beacon) The present invention provides an information providing service method capable of providing an information providing service.

In order to provide the information providing service method, a beacon for generating and broadcasting beacon information including fingerprint information of a user of the mobile communication terminal and a service method for providing different information for each user using the beacon information are provided .

When the user's fingerprint information is recognized through the fingerprint recognizer included in the beacon, the beacon processor in the idle state wakes up in response to the fingerprint information used as the interrupt signal, And initiating a counting operation in response to receipt of the fingerprint information using a counter of software executed in the wakeup beacon processor, wherein the wakeup beacon processor, upon receipt of control of the software, Transmitting the beacon information including the ID of the beacon and the fingerprint information to the wireless transceiver of the beacon to broadcast the beacon information transmitted from the beacon; , The processor is configured to: Reading the encrypted fingerprint information from the memory to generate decrypted fingerprint information in accordance with the control of the mobile application; and controlling the mobile terminal to generate the decrypted fingerprint information and the beacon information And transmitting the beacon ID and the identifier included in the beacon information to the wireless transceiver of the mobile communication terminal to transmit the beacon ID and the identifier to the operation server when the coincidence is detected; The beacon processor determines whether the count value generated according to the count operation matches the reference count value according to the control of the software and, when the beacon is matched, transmits the beacon information to the wireless transceiver , Resets the counter, switches to the idle state again It includes the steps:

When the user's fingerprint information is recognized through the fingerprint recognizer included in the beacon, the beacon processor in the idle state wakes up in response to the fingerprint information used as the interrupt signal, And initiating a counting operation in response to receipt of the fingerprint information using a counter of software executed in the wakeup beacon processor, wherein the wakeup beacon processor, upon receipt of control of the software, Encrypting the beacon ID using the fingerprint information and transmitting the beacon's wireless transceiver to broadcast an encrypted beacon ID; and transmitting the beacon from the beacon to the mobile application, Upon obtaining the ID of the encrypted beacon, Reading the encrypted fingerprint information from the memory and generating decrypted fingerprint information according to the control of the mobile application; and controlling the mobile terminal to generate the decrypted fingerprint information according to the control of the mobile application Decrypting the ID of the encrypted beacon using a decryption key of the mobile communication terminal and decrypting the ID of the encrypted beacon using the decryption key; And transmitting the beacon signal to the transceiver; and the wake-up beacon processor determines whether the count value generated according to the count operation matches the reference count value according to the control of the software, The ID of the encrypted beacon to the wireless transceiver of the beacon Ceasing to transmit, and a step which resets the counter, and switching to the idle state again.

A beacon according to embodiments of the present invention includes a beacon processor for executing software including a fingerprint recognizer, a memory for storing a beacon ID, a wireless transceiver, and a counter, and the user's fingerprint information is recognized The beacon processor in the idle state switches to the wake up state in response to the fingerprint information used as the interrupt signal.

The beacon processor in the wakeup state starts counting operation from the time when the fingerprint information is received by using the counter, and when the fingerprint information is received under the control of the software, Generates beacon information including the read beacon ID and the fingerprint information, and transmits the beacon information to the radio transceiver to broadcast the beacon information. According to the control of the software, a count value And to transmit the beacon information to the wireless transceiver to reduce the power consumption of the beacon when the beacon is coincident, reset the counter, and return from the wakeup state to the idle state Enter.

A beacon according to embodiments of the present invention includes a beacon processor for executing software including a fingerprint recognizer, a memory for storing a beacon ID, a wireless transceiver, and a counter, ) Is recognized, the beacon processor in the idle state changes to the wakeup state in response to the fingerprint information used as the interrupt signal.

The beacon processor in the wakeup state starts counting operation from the time when the fingerprint information is received by using the counter and when the fingerprint information is received under the control of the software, And transmits the encrypted beacon ID to the wireless transceiver to broadcast the encrypted beacon ID, and in accordance with the control of the software, transmits the count value generated according to the count operation Stopping transmitting the encrypted beacon ID to the wireless transceiver to reduce power consumption of the beacon when a match is reached, resetting the counter, resetting the counter from the wakeup state, State.

The information providing service method according to the present invention provides the special information only through a special action of the user of the mobile communication terminal for obtaining special information from the operation server (for example, an action of touching the fingerprint of the user to the beacon fingerprint reader of the beacon) There is an effect that can be provided.

The beacon according to the embodiments of the present invention is woken up when a user of the mobile communication terminal touches the fingerprint recognizer of the beacon and the wake-up beacon generates beacon information including the fingerprint information of the user, The beacon information can be broadcast only for a predetermined time after the beacon information is generated, thereby reducing power consumption of the beacon.

When a beacon including a fingerprint recognizer generates beacon information including fingerprint information of a user of the mobile communication terminal and broadcasts the beacon information, an application running on the mobile communication terminal transmits the fingerprint information included in the beacon information, It is possible to determine whether to transmit the information request to the operation server in accordance with whether or not the fingerprint information stored in advance is coincident with the fingerprint information.

1 shows a block diagram of a beacon service system including a beacon according to embodiments of the present invention.
2 is a block diagram of a beacon that broadcasts beacon information including a beacon ID and user fingerprint information.
3 is a block diagram of a beacon that encrypts a beacon ID using user fingerprint information and broadcasts an encrypted beacon ID.
4 is a data flow illustrating the operation of the beacon service system including the beacon of FIG. 2;
5 is a data flow illustrating the operation of the beacon service system including the beacon of FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings attached hereto.

1 shows a block diagram of a beacon service system including a beacon according to embodiments of the present invention. The beacon service system 10 of FIG. 1, which can be used as an information providing service system, includes a beacon 100, a mobile communication terminal 200, and an operation server 300 including a fingerprint recognizer. In the beacon service system 10 or the information providing service system 10, the beacon 100 and the mobile communication terminal 200 can receive or receive information through the first communication network 150, The operating server 300 may receive or receive information via the second communication network 250 and the operating server 300 may store or read information in or from the data storage device 400 .

The information may be signals or data, and the data storage device 400 may be implemented as a database managed by the operating server 300.

The first communication network 150 may be a wireless communication network using Bluetooth communication or Bluetooth low energy (BLE) communication, and the second communication network 250 may be a communication network for Wi-Fi communication or a communication network for mobile communication.

A beacon 100A or 100B (collectively referred to as 100) is installed in an offline environment and is capable of broadcasting beacon information (BI) (also referred to as a beacon frame) in the offline environment using a wireless communication technology May refer to a communication device (or transmitter). In this specification, the beacon 100 broadcasts the beacon information BI, which means that the beacon 100 outputs beacon information BI in an offline environment in which the beacon 100 is installed. That is, each of the mobile communication terminals around the beacon 100 may receive beacon information (BI) through the first communication network 150.

The beacon 100 may broadcast beacon information (BI) using the BLE communication. For example, the beacon 100 may utilize a BLE 4.0 protocol-based short-range wireless communication scheme.

The beacon information BI may refer to information (signals, data, or data packets) output from the beacon 100.

The beacon 100 can periodically broadcast beacon information BI only for a predetermined time. The beacon 100 acquires the fingerprint information corresponding to the fingerprint of the user 50 of the mobile communication terminal 200 through the fingerprint reader installed in the beacon 100, The beacon information BI may be output only for a certain period of time after the fingerprint information is acquired.

Embodiments of beacon information (BI) will be described in detail with reference to FIGS. 2 and 3. FIG.

The beacon 100 transmits the beacon ID of the beacon 100 and the beacon ID of the user 50 of the mobile communication terminal 200 in contact with the beacon reader provided in the beacon 100, (Or broadcast) the generated beacon information BI for a predetermined period of time. The fingerprint information may be included in beacon information (BI) in the form of a plain text or a cipher text.

The beacon 100B to be described with reference to FIG. 3 encrypts the beacon ID (BID) using the fingerprint information PF and transmits the beacon information BI including the encrypted beacon ID En_PF (BID) ≪ / RTI >

The mobile communication terminal 200 of the user 50 may mean a device capable of wireless communication with another device. For example, the mobile communication terminal 200 may be a mobile phone, a smart phone, a tablet PC, a PDA (personal digital assistant), an enterprise digital assistant (EDA), a digital still camera, a mobile internet device ), A wearable computer, an Internet of Things (IoT) device, or an Internet of Everything (IoE) device.

The mobile terminal 200 may include a processor 210, a memory 220, and wireless transceivers 230 and 240. Processor 210 may execute an application (a mobile application program or an application) described herein and may be implemented as a central processing unit (CPU) or an application processor (AP) .

The memory 220 may store the application and software necessary for the operation of the mobile communication terminal 200, and collectively refers to a non-volatile memory and / or a volatile memory.

The application may be downloaded from the specific server providing the application to the memory 220 of the mobile communication terminal 200 via the wireless communication network and executed by the processor 210 of the mobile communication terminal 200. [

The mobile communication terminal 200 can receive the beacon information BI transmitted from the beacon 100 through the first communication network 150 under the control of the application. The application may restore or extract the beacon ID and fingerprint information from the beacon information (BI).

The operation server 300 that can receive or receive information from the mobile communication terminal 200 through the wireless transceiver 240 and the second communication network 250 receives the beacon ID and / or the identifier from the mobile communication terminal 200, The beacon ID and / or the identifier may be used to search the data storage device 300, and the information corresponding to the search result may be transmitted to the mobile communication terminal 200.

2 is a block diagram of a beacon that broadcasts beacon information including a beacon ID and user fingerprint information. 2, a beacon 100A corresponding to an embodiment of the beacon 100 includes a fingerprint recognizer 110, a battery 112, a memory 114 for storing a beacon ID (BID), a beacon processor 116A, , And a wireless transceiver (124).

The fingerprint recognizer 110 can acquire fingerprint information PF corresponding to the fingerprint of the user 50 when the user 50 of the mobile communication terminal 200 touches the fingerprint reader 110 with his fingerprint Means a device. The fingerprint recognizer 110 may refer to a fingerprint sensor capable of recognizing a fingerprint.

The beacon processor 116A executes the software 120 including the counter 122. [ The counter 122 may refer to software that can measure (or calculate) the operating time, and may also be referred to as a timer capable of measuring the operating time.

When the fingerprint information PF of the user 50 is recognized (or acquired) by the fingerprint recognizer 110, the beacon processor 116A in the idle state responds to the fingerprint information PF used as the interrupt signal, .

The beacon processor 116A in the wakeup state starts the count (or timer) operation from the time when the fingerprint information PF is received by using the counter 122. [ For example, the interrupt circuit 118 of the beacon processor 116A receives the fingerprint information PF as an interrupt signal, and the core logic circuit of the beacon processor 116A, from the idle state, under the control of the interrupt circuit 118, Wakeup state, and the counter 122 of the software 120 is operated to start the count operation.

The battery 112 always supplies the corresponding operating voltage to the interrupt circuit 118 and the fingerprint recognizer 110. The interrupt circuit 118 and the fingerprint recognizer 110 are always placed in a first power domain to which an operating voltage is supplied and the core logic circuit is provided with a first 2 < / RTI > power domain.

The software 120 executed in the beacon processor 116A in the wakeup state reads the beacon ID BID from the memory 114 in response to receiving the fingerprint information PF when the fingerprint information PF is received, Generates beacon information (BI) including the read beacon ID (BID) and fingerprint information (PF), and transmits the generated beacon information (BI) to the wireless transceiver (124). The wireless transceiver 124 transmits the beacon information BI to the mobile communication terminal 200 through the first communication network 150 only for a predetermined period of time. Accordingly, the power consumption of the beacon 100A is reduced compared to the beacon that always broadcasts the beacon ID.

2 and 4, the beacon processor 116A in the wakeup state generates a count value CNT generated according to the counting operation of the counter 122 and a reference count value (CNT) according to the control of the software 120 REFCNT match and stops transmitting beacon information BI to the wireless transceiver 124 to reduce the power consumption of the beacon 100A when these CNT and REFCNT match, ), And enters the idle state again from the wakeup state. The idle beacon 100A maintains the idle or idle state until new fingerprint information PF is generated.

3 is a block diagram of a beacon that encrypts a beacon ID using user fingerprint information and broadcasts an encrypted beacon ID.

3, a beacon 100B according to an embodiment of the beacon 100 includes a fingerprint recognizer 110, a battery 112, a memory 114 for storing a beacon ID (BID), a beacon processor 116B, And a wireless transceiver (124).

The fingerprint recognizer 110 refers to a device capable of obtaining fingerprint information (PF) corresponding to a fingerprint of the user 50 of the mobile communication terminal 200. The beacon processor 116B in the wakeup state can execute the software 120 including the counter 122. [ The counter 122 may refer to software that can measure (or calculate) the operating time, and may also be referred to as a timer.

When the fingerprint information PF corresponding to the fingerprint of the user 50 of the mobile communication terminal 200 is recognized (or acquired) through the fingerprint recognizer 110, the beacon processor 116B in the idle state is used as an interrupt signal And changes to the wakeup state in response to the fingerprint information PF.

The beacon processor 116B in the wakeup state starts the count (or timer) operation from the time when the fingerprint information PF is received by using the counter 122. [

The beacon processor 116B in the wakeup state reads the beacon ID (BID) from the memory 114 in response to reception of the fingerprint information PF when the fingerprint information PF is received, under the control of the software 120 Encrypts the beacon ID (BID) using the fingerprint information PF and transmits the beacon information BI including the encrypted beacon ID (En_PF (BID)) to the wireless transceiver 124. The wireless transceiver 124 transmits beacon information BI including the encrypted beacon ID (En_PF (BID)) to the mobile communication terminal 200 through the first communication network 150.

3 and 5, in accordance with the control of the software 120, the beacon processor 116B in the wakeup state updates the count value CNT generated according to the count operation of the counter 122 and the reference count value REFCNT (BI) including the encrypted beacon ID (En_PF (BID)) to reduce the power consumption of the beacon 100B when these (CNT and REFCNT) match the beacon information BI Stops counting, resets the counter 122, and enters the idle state again from the wake up state.

4 is a data flow illustrating the operation of the beacon service system including the beacon of FIG. 2; Operation of the beacon service system 10 will be described with reference to Figs. 1, 2, and 4 as follows.

When the user 50 obtains the beacon information BI from the beacon 100 from the mobile communication terminal 200 and obtains the search result DATA from the operation server 300, The fingerprint recognizer 110 generates fingerprint information PF corresponding to the fingerprint and transmits the generated fingerprint information PF to the beacon processor 116A in the idle state at step S110. The idle state is also referred to as a power save state.

In the idle state, the beacon 100A can only supply the operating voltage provided from the battery 112 to the fingerprint recognizer 110 and the interrupt circuit 118 to reduce the power consumption of the beacon 100A. The battery 112 is connected to a core logic circuit except for the memory 114 of the beacon 100A and the interrupt circuit 118 and to the radio transceiver 124 respectively under the control of the beacon processor 116A in the idle state The operating voltage can be cut off. The core logic circuitry refers to the hardware that executes the software 120, including the counter 122, except for the interrupt circuitry 118.

When beacon 100A or beacon processor 116A is in an idle state or a power save state, beacon 100A or beacon processor 116A does not generate beacon information BI or broadcast beacon information BI. For example, beacon 100A or beacon processor 116A may block the operating voltage supplied from battery 112 to wireless transceiver 124. [

According to another embodiment, the beacon 100A or 100B further comprises a clock signal generator for generating a clock signal, and when the beacon 100A or 100B or the beacon processor 116A or 116B is in an idle state or a power save state, The clock signal generator may supply a clock signal having a first frequency to the beacon processor 116A or 116B under the control of the beacon processor 116A or 116B. Further, when the beacon 100A or 100B or the beacon processor 116A or 116B is in the wakeup state or the normal operation state, the clock signal generator generates the clock signal having the second frequency according to the control of the beacon processor 116A or 116B To the beacon processor 116A or 116B. At this time, the first frequency is lower than the second frequency.

When the fingerprint information PF of the user 50 is recognized through the fingerprint recognizer 110 included in the beacon 100A at step S110, the beacon processor 116A in the idle state generates the fingerprint information PF used as the interrupt signal, (Step S115). That is, when the fingerprint information PF is supplied to the interrupt circuit 118 of the idle beacon processor 116A, the core logic circuit is controlled by the software 120 including the counter 122, under the control of the interrupt circuit 118. [ .

The wakeup beacon processor 116A starts the count operation when the fingerprint information PF is received using the counter 122 of the software 120 executed therein (S120).

The wakeup beacon processor 116A generates beacon information BI including the beacon ID BID and the fingerprint information PF under the control of the software 120 and outputs the generated beacon information BI To the wireless transceiver 124 (S125). The wireless transceiver 124 transmits the beacon information BI to the mobile communication terminal 200 through the first communication network 150 only for a predetermined period of time (S125).

The wireless transceiver 230 of the mobile communication terminal 200 capable of communicating with the beacon 100A through the first communication network 150 receives the beacon information BI and transmits the received beacon information BI to the processor 210 ).

When the application executed in the processor 210 of the mobile communication terminal 200 acquires the beacon information BI transmitted from the beacon 100A, the processor 210 receives the beacon information BI from the memory 220 The encrypted fingerprint information is read and decrypted, and the decrypted fingerprint information (DPF) is generated (S130).

For example, when the fingerprint information of the user 50 is acquired through the fingerprint reader installed in the mobile communication terminal 200, the application encrypts the fingerprint information of the user 50 using the encryption / decryption key, (220), reads the fingerprint information from the memory (220) when necessary, and decrypts the read encrypted fingerprint information using the encryption decryption key.

The processor 210 determines whether or not the decrypted fingerprint information DPF matches the fingerprint information PF included in the beacon information BI transmitted from the beacon 100A in step S135, , And transmits the beacon ID (BID) included in the identifier and the beacon information BI to the wireless transceiver 240 when these (PF and DPF) match (YES in S135). The wireless transceiver 240 transmits the identifier and the beacon ID (BID) to the operation server 300 through the second communication network 250 (S140). Since the URL of the operation server 300 is stored in advance in the application, the identifier and the beacon ID (BID) may be transmitted to the operation server 300 corresponding to the URL.

However, when these (PF and DPF) do not match (NO in S135), the processor 210 discards or deletes the beacon information BI or the beacon ID (BID) according to the control of the application (S155).

For example, if the user 50 of the mobile communication terminal 200 and the user who has made a fingerprint contact with the fingerprint reader 110 are the same, the mobile communication terminal 200 performs the steps S 135 and S 140, If the user 50 of the terminal 200 and the user who has made a fingerprint contact with the fingerprint reader 110 are not the same person, the mobile communication terminal 200 performs steps (NO and S155 of S135).

The application executed by the processor 210 performs the steps S130, S135, S140, and S155. The steps S130, S135, S140, and S155 are stored in the memory 220, and the steps S130, S135, S140, and S155 are executed by a computer program executable on the processor 210, Or a computer program constituting an application stored in the storage unit 220.

The wakeup beacon processor 116A determines whether the count value CNT generated in accordance with the count operation of the counter 122 matches the reference count value REFCNT under the control of the software 120 (S170), the beacon information BI is transmitted to the radio transceiver 124 in order to reduce the power consumption of the beacon 100A (S160). When the counter (CNT and REFCNT) 122 are reset (S175), and the state is switched back to the idle state (S180). Depending on the embodiment, when these (CNT and REFCNT) match (NO in S160), the wakeup beacon processor 116A may block the operating voltage supplied to the wireless transceiver 124. [

For example, when the count value CNT is smaller than the reference count value REFCNT (YES in S160), the beacon 100A periodically transmits the beacon information BI. However, when the count value CNT is equal to or larger than the reference count value REFCNT (NO in S160), the beacon 100A stops or stops the generation or transmission of the beacon information BI.

When the beacon 100A or the beacon processor 116A is in the idle state or the power save state, the beacon 100A or the beacon processor 116A generates beacon information BI including the beacon ID BID, BI) (S180). The beacon 100A or beacon processor 116A in the idle state or the power save state remains in a standby state until new fingerprint information is generated.

However, when the fingerprint information PF is generated (S110), the beacon 100A or the beacon processor 116A is switched from the idle state or the power save state to the wakeup state (S115) (BI) including the beacon ID (BID) and the fingerprint information PF only for the reference time (for example, 5 seconds), and broadcasts the beacon information BI periodically (YES in S160).

If the reference time (e.g., 5 seconds) has elapsed after the fingerprint information PF is generated (NO in S160), the wakeup beacon processor 116A controls the power of the beacon 100A The transmission of the beacon information BI to the wireless transceiver 124 is stopped in step S170 to reset the counter 122 in step S175 and then to the idle state in step S180.

The operation server 300 receives the beacon ID and the identifier through the second communication network 250 in step S140 and transmits the beacon ID and the identifier from the data storage device 400 using at least one of the beacon ID and the identifier The information corresponding to the beacon ID (BID) and the information corresponding to the identifier (S145), and transmits information (DATA) corresponding to the search result to the mobile communication terminal 200 through the second communication network 250. [ Lt; / RTI >

The identifier transmitted from the mobile communication terminal 200 to the operation server 300 includes fingerprint information PF and decrypted fingerprint information DPF identical to the fingerprint information PF, And may be a device identification number of the mobile communication terminal 200 capable of identifying the communication terminal 200.

A first lookup table 410 for storing information defined by USER in the data storage device 400 such as the database 400 and a first lookup table 410 for storing information defined by a beacon ID May be stored in the second lookup table 420. The second lookup table 420 stores the second lookup table 420,

The information CONT1, CONT2, ... includes information that uniquely identifies each user USER1, USER2, ... or digital content etc. allocated to each user USER1, USER2, ... But is not limited thereto. The digital content means that contents such as text, sound, sound, image, and image are produced or processed in a digital format.

Therefore, when the user who has contacted the fingerprint reader 110 with the fingerprint reader 110 is the first user USER1, the operation server 300 provides the first information CONT1 to the mobile communication terminal of the first user USER1, The operating server 300 provides the second information CONT2 to the mobile communication terminal of the second user USER2 when the user who has made the fingerprint contact with the fingerprint recognizer 110 is the second user USER2.

INFORMATION may include information INFO1, INFO2, ... corresponding to each beacon ID (BID = BID1, BID2, ...). Each piece of information INFO1, INFO2, ... may include information that uniquely identifies the beacon.

For example, even if each of the users USER1 and USER2 touches the fingerprint of each user USER1 and USER2 with the fingerprint reader 110 of the beacon 100A having the same beacon ID (BID = BID1) at different times, The operation server 300 may provide different information CONT1 and CONT2 to each user USER1 and USER2.

5 is a data flow illustrating the operation of the beacon service system including the beacon of FIG. Operation of the beacon service system 10 will be described with reference to Figs. 1, 3, and 5 as follows.

The user 50 of the mobile communication terminal 200 obtains the beacon information BI from the beacon 100 and transmits the fingerprint of the user 50 to the fingerprint recognizer The fingerprint recognizer 110 generates fingerprint information PF corresponding to the fingerprint and transmits the generated fingerprint information PF to the beacon processor 116B in the idle state.

When the fingerprint information PF of the user 50 is recognized through the fingerprint recognizer 110 included in the beacon 100B at step S110, the beacon processor 116B in the idle state generates the fingerprint information PF used as the interrupt signal, (Step S115).

The wake-up beacon processor 116B starts counting (or timer) operation when the fingerprint information PF is received (S120) using the counter 122 of the software 120 executed therein.

The wakeup beacon processor 116B encrypts the beacon ID (BID) using the fingerprint information PF under the control of the software 120 and transmits the beacon ID (En_PF (BID) (BI), and transmits the beacon information BI to the wireless transceiver 124 (S123). The wireless transceiver 124 transmits beacon information BI including the encrypted beacon ID En_PF (BID) to the mobile communication terminal 200 through the first communication network 150 (S128).

The wireless transceiver 230 of the mobile communication terminal 200 capable of communicating with the beacon 100B through the first communication network 150 receives the beacon information BI and transmits the received beacon information BI to the processor 210 ).

When the application executed in the processor 210 of the mobile communication terminal 200 acquires beacon information BI including the encrypted beacon ID En_PF (BID) transmitted from the beacon 100B, the processor 210 , Reads the encrypted fingerprint information from the memory 220 according to the control of the application, decrypts the encrypted fingerprint information, and generates decrypted fingerprint information (DPF) (S130).

The processor 210 acquires (or decodes) a beacon ID (BID) from the encrypted beacon ID (En_PF (BID)) using the decrypted fingerprint information (DPF) as a decryption key under the control of the application S133).

The processor 210 transmits the identifier and the ID (BID) of the decrypted beacon to the wireless transceiver 240 under the control of the application. The wireless transceiver 240 transmits the identifier (BID) of the beacon decoded through the second communication network 250 and the identifier to the operation server 300 (S142).

However, the processor 210 can not acquire (or decode) the beacon ID (BID) from the encrypted beacon ID (En_PF (BID)) by using the decrypted fingerprint information (DPF) as a decryption key under the control of the application The processor 210 discards or deletes the beacon information BI including the encrypted beacon ID (En_PF (BID)) according to the control of the application (S134).

For example, if the user 50 of the mobile communication terminal 200 and the user who has made the fingerprint contact with the fingerprint reader 110 are the same, the mobile communication terminal 200 performs the steps S133 and S142, The mobile communication terminal 200 performs steps S133 and S134 if the user 50 of the mobile communication terminal 200 and the user who contacts the fingerprint reader 110 are not the same person.

The application executed by the processor 210 performs the steps S130, S133, S134, and S142. The steps S130, S133, S134, and S142 are performed by a computer program that is executable on the processor 210, that is, the memory 130. The steps S130, S133, S134, and S142 are stored in the memory 220, Or a computer program constituting an application stored in the storage unit 220.

The wake-up beacon processor 116B determines whether the count value CNT generated according to the count operation of the counter 122 matches the reference count value REFCNT under the control of the software 120 (S160) (S160), the beacon information BI is transmitted to the radio transceiver 124 in order to reduce the power consumption of the beacon 100B (S170) 122 are reset (S175), and the state is switched back to the idle state (S180).

For example, when the count value CNT is smaller than the reference count value REFCNT (YES in S160), the beacon 100B periodically transmits beacon information BI including the encrypted beacon ID En_PF (BID) do. However, when the count value CNT is equal to or larger than the reference count value REFCNT (NO in S160), the beacon 100B stops or stops generating and / or transmitting the beacon information BI.

Beacon 100B or beacon processor 116B does not generate beacon information BI or broadcast beacon information BI when beacon processor 100B or beacon processor 116B is in an idle state or a power save state S180). The beacon 100B or the beacon processor 116B in the idle state or power save state remains in a standby state until new fingerprint information is generated.

However, when the fingerprint information PF is generated (S110), the beacon 100B or the beacon processor 116B is switched from the idle state or the power save state to the wakeup state (S115), and the fingerprint information PF corresponding to the reference count value REFCNT Generates beacon information BI containing encrypted fingerprint information En_PF (BID) only for a reference time (e.g., 5 seconds), and periodically broadcasts beacon information BI (YES in S160).

When the reference time (e.g., 5 seconds) elapses after the fingerprint information PF is generated (NO in S160), the wakeup beacon processor 116B controls the power of the beacon 100B The transmission of the beacon information BI to the wireless transceiver 124 is stopped in step S170 to reset the counter 122 in step S175 and then to the idle state in step S180.

The operation server 300 receives the beacon ID and the identifier through the second communication network 250 in step S140 and transmits the beacon ID and the identifier from the data storage device 400 using at least one of the beacon ID and the identifier At least one of the information corresponding to the beacon ID and the information corresponding to the identifier is searched at step S145 and the result of the search is transmitted to the mobile communication terminal 200 through the second communication network 250 do.

The identifier transmitted from the mobile communication terminal 200 to the operation server 300 may include the decrypted fingerprint information (DPF) identical to the fingerprint information PF, the telephone number of the mobile communication terminal 200, And may be a device identification number of the mobile communication terminal 200 that can be identified.

A first lookup table 410 for storing information defined by USER in the data storage 400, for example, a database 400, and information defined by a beacon ID (BID) A second lookup table 420 may be stored.

The information CONT1, CONT2, ... includes information that uniquely identifies each user USER1, USER2, ... or digital content etc. allocated to each user USER1, USER2, ... can do. Each user (USER1, USER2, ...) can be identified by an identifier. That is, the operation server 300 searches the data storage device 400 using the identifier transmitted from the mobile communication terminal 200 to identify each user USER1, USER2, To identify beacons 100, 100A, or 100B.

INFORMATION may include information INFO1, INFO2, ... corresponding to each beacon ID (BID = BID1, BID2, ...). Each piece of information INFO1, INFO2, ... may include information that uniquely identifies the beacon.

When the beacon ID (BID) is BID1, the operation server 300 can transmit INFO1 to the mobile communication terminal 200. When the beacon ID (BID) is BID2, the operation server 300 transmits the INFO2 to the mobile communication terminal 200. [ (200).

For example, a fingerprint of each user (USER1 and USER2) may be contacted to a fingerprint reader 110 of a beacon 100 or 100B having different beacons ID (BID = BID1) at different times from different users (USER1 and USER2) The operation server 300 may provide different information CONT1 and CONT2 to each user USER1 and USER2.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10: Beacon service system, information service system
100, 100A, 100B: Beacon
110: fingerprint reader
112: Battery
114: Memory
116A, 116B: Beacon processor
118: Interrupt circuit
124: wireless transceiver
200: Mobile communication terminal
210: Processor
220: Memory
230, 240: wireless transceiver
300: Operational server
400: data storage device, database
BID: Beacon ID
PF: Fingerprint information

Claims (8)

When the user's fingerprint information is recognized through a fingerprint recognizer included in a beacon used as a transmitter, the beacon processor in an idle state wakes up in response to the fingerprint information used as an interrupt signal;
Wherein the wake-up beacon processor initiates a count operation in response to receipt of the fingerprint information using a counter of software executed therein;
The wake-up beacon processor transmits beacon information including the ID of the beacon and the fingerprint information to the wireless transceiver of the beacon to broadcast to the mobile communication terminal through the wireless communication network, under the control of the software ;
When the mobile application executing in the processor of the mobile communication terminal acquires the beacon information transmitted from the beacon, the processor reads and decrypts the encrypted fingerprint information from the memory according to the control of the mobile application, Generating fingerprint information;
The processor determines whether or not the decrypted fingerprint information matches the fingerprint information included in the beacon information according to the control of the mobile application and, when the decrypted fingerprint information coincides with the fingerprint information included in the beacon information, Transmitting to a wireless transceiver of the mobile communication terminal for transmission to an operation server; And
Wherein the wake-up beacon processor determines whether the count value generated according to the counting operation matches the reference count value according to the control of the software and, when the beacon is matched, Stopping transmission to the wireless transceiver of the beacon, resetting the counter, and switching back to the idle state. The method according to claim 1,
Searching at least one of the information corresponding to the ID of the beacon and the information corresponding to the identifier from the data storage device using at least one of the ID and the identifier of the beacon; And
And the operation server transmits the result of the search to the mobile communication terminal. 3. The method of claim 2,
Wherein the identifier is the decrypted fingerprint information, the telephone number of the mobile communication terminal, or the device identification number of the mobile communication terminal. When the user's fingerprint information is recognized through a fingerprint recognizer included in a beacon used as a transmitter, the beacon processor in an idle state wakes up in response to the fingerprint information used as an interrupt signal;
Wherein the wake-up beacon processor initiates a count operation in response to receipt of the fingerprint information using a counter of software executed therein;
The wake-up beacon processor may be configured to encrypt the ID of the beacon using the fingerprint information according to the control of the software, to broadcast the ID of the encrypted beacon to the mobile communication terminal through the wireless communication network, Transmitting to a wireless transceiver;
When the mobile application executing in the processor of the mobile communication terminal acquires the ID of the encrypted beacon transmitted from the beacon, the processor reads and decrypts the encrypted fingerprint information from the memory under the control of the mobile application Generating decrypted fingerprint information;
Decrypting the ID of the encrypted beacon using the decrypted fingerprint information as a decryption key under the control of the mobile application;
Transmitting the ID and the identifier of the decrypted beacon to the wireless transceiver of the mobile communication terminal for transmission to the operation server according to the control of the mobile application; And
Wherein the wake-up beacon processor is configured to determine whether the count value generated according to the count operation matches the reference count value according to the control of the software, and to determine whether the count value of the encrypted beacon Stopping transmission of the ID to the wireless transceiver of the beacon, resetting the counter, and switching back to the idle state. 5. The method of claim 4,
Searching at least one of information corresponding to the ID of the decrypted beacon and information corresponding to the identifier from the data storage device using at least one of the ID of the decrypted beacon and the identifier; And
And the operation server transmits the result of the search to the mobile communication terminal. 6. The method of claim 5,
Wherein the identifier is the decrypted fingerprint information, the telephone number of the mobile communication terminal, or the device identification number of the mobile communication terminal. A beacon broadcasting beacon information to a mobile communication terminal through a wireless communication network,
Fingerprint reader;
A memory for storing a beacon ID;
A wireless transceiver;
A beacon processor for executing software including a counter,
When the user's fingerprint information is recognized through the fingerprint recognizer, the beacon processor in the idle state changes to a wakeup state in response to the fingerprint information used as an interrupt signal,
Wherein the beacon processor in the wake-
The counting operation is started from the time when the fingerprint information is received by using the counter,
Upon receipt of the fingerprint information, reads the beacon ID from the memory, generates the beacon information including the read beacon ID and the fingerprint information, and transmits the beacon information through the wireless communication network To the wireless transceiver for broadcasting to the mobile communication terminal,
According to the control of the software, it is judged whether the count value generated according to the counting operation matches the reference count value, and when it is coincident, transmission of the beacon information to the radio transceiver is stopped to reduce power consumption of the beacon , Resetting the counter, and entering the idle state again from the wake up state. A beacon broadcasting an encrypted beacon ID to a mobile communication terminal through a wireless communication network,
Fingerprint reader;
A memory for storing a beacon ID;
A wireless transceiver;
A beacon processor for executing software including a counter,
When the user's fingerprint information is recognized through the fingerprint recognizer, the beacon processor in the idle state changes to a wakeup state in response to the fingerprint information used as an interrupt signal,
Wherein the beacon processor in the wake-
The counting operation is started from the time when the fingerprint information is received by using the counter,
The beacon ID is read from the memory when the fingerprint information is received, the beacon ID is read using the fingerprint information, and the encrypted beacon ID is read out from the memory via the wireless communication network To a wireless transceiver for broadcasting to a mobile communication terminal,
Determining whether the count value generated according to the counting operation matches the reference count value according to the control of the software and transmitting the encrypted beacon ID to the radio transceiver to reduce the power consumption of the beacon when matched And resetting the counter, and entering the idle state again from the wakeup state.

Images