KR20170092909A - Method for processing payment data using bluetooth communication, terminal for transmission and receiving payment data and system for processing payment data using thereof - Google Patents
Method for processing payment data using bluetooth communication, terminal for transmission and receiving payment data and system for processing payment data using thereof Download PDFInfo
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- KR20170092909A KR20170092909A KR1020160014177A KR20160014177A KR20170092909A KR 20170092909 A KR20170092909 A KR 20170092909A KR 1020160014177 A KR1020160014177 A KR 1020160014177A KR 20160014177 A KR20160014177 A KR 20160014177A KR 20170092909 A KR20170092909 A KR 20170092909A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/08—Payment architectures
- G06Q20/16—Payments settled via telecommunication systems
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/30—Payment architectures, schemes or protocols characterised by the use of specific devices or networks
- G06Q20/32—Payment architectures, schemes or protocols characterised by the use of specific devices or networks using wireless devices
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q20/00—Payment architectures, schemes or protocols
- G06Q20/38—Payment protocols; Details thereof
- G06Q20/40—Authorisation, e.g. identification of payer or payee, verification of customer or shop credentials; Review and approval of payers, e.g. check credit lines or negative lists
- G06Q20/409—Device specific authentication in transaction processing
- G06Q20/4097—Device specific authentication in transaction processing using mutual authentication between devices and transaction partners
- G06Q20/40975—Device specific authentication in transaction processing using mutual authentication between devices and transaction partners using encryption therefor
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W12/00—Security arrangements; Authentication; Protecting privacy or anonymity
- H04W12/08—Access security
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Abstract
Description
BACKGROUND OF THE
BACKGROUND ART [0002] With the spread of user terminals such as a smart phone having a local wireless communication function, functions of transmitting and receiving data related to various settlement such as a mobile credit card / credit card function and a point card function are mounted on a user terminal.
Accordingly, a payment data processing device for processing payment information, such as payment information and point information, which is a data processing device that transmits, receives, and processes payment data to a user terminal such as a smart phone is widely spread.
This payment data processing device is implemented as an NFC-based payment system, and the RFID technology is applied to the user terminal utilizing the near-field wireless communication technology, and the NFC reader that receives and processes the data transmission and reception through the mounted NFC reader A large number of payment data processing apparatuses are installed.
However, in the case of a payment data processing device having such an NFC reader, there is a need to contact the reader to exchange information to enhance security. Conversely, contact with the reader is a weak point in terms of usability.
Particularly, it is required to receive and process payment-related data from a payment system in a user terminal in a form in which user information such as card information used for payment is transmitted to a payment system and approval of the payment is received in a payment system There is a fundamental limitation in responding to various mobile payments.
[0006] On the other hand, Bluetooth based communication technology has an advantage in that a Bluetooth module or function is mounted on almost all the user terminals as described above. When necessary, the user terminal receives payment related data from the payment system, And Bluetooth low energy (BLE) technology including Beacon technology has recently been utilized as a Bluetooth communication based technology, and various services such as location-based service using BLE technology Is being developed.
Accordingly, development of a new Bluetooth communication-based payment method and system for transmitting or receiving information related to settlement such as payment information and point information through Bluetooth communication including a payment data processing device equipped with a Bluetooth communication module has been attempted .
However, when billing data is transmitted using a beacon of the BLE technology, when a beacon signal is used, an advantage of transmitting simple data without pairing due to a broadcasting process However, due to the characteristics of a beacon signal broadcasted, the security of the data is not ensured. Since a beacon transmitting device can not directly identify a specific user terminal to receive or directly receive data, There is a problem that it is not suitable for the transmission of the data.
On the other hand, in the case of general BLE communication proceeding with search, search response, connection request and connection request response, connection and data communication, a communication channel between both terminals is shared through a shared secret key by sharing a secret key In fact, it is a real problem that it is vulnerable to hackers' sniffing attack because encryption technology is not applied basically in the way that it is formed. However, since data is transmitted after the above connection and data communication process in data transmission, There is a problem that a delay occurs in transmission of the initial data due to repeated attempts of connection for data transmission.
The problem of the delay in transmission of the initial data as described above is that the transmission of payment data one time to the user terminal through Bluetooth communication is required and the subsequent data processing is performed in the user terminal, In the apparatus, the settlement process is delayed, resulting in inconvenience of the user and a decrease in the reliability of the settlement process. In particular, when there is a limitation on the distance to the user terminal in the payment data transmission, that is, in the case where the user terminal restricts transmission of the payment data only in a close proximity to the payment data processing apparatus, To the settlement data processing device and recognizing that the settlement is completed is required to bring the user terminal back to the original position and it is necessary to request the user to bring the user terminal close again so that the user inconvenience And the reliability of the settlement process decreases, an error inevitably occurs in the settlement data transmission due to such repetitive actions and data transmission.
Accordingly, due to the above-described problems of the beacon of the BLE technology and the connection between the user terminal and the general BLE communication conducted through the data communication, the BLE communication is a method in which all the user terminals are equipped with the Bluetooth function, It has not been actively utilized in a payment data processing system that transmits important payment data other than general data communication.
Accordingly, there is a problem of security vulnerability as described above, a method of transmitting settlement data through Bluetooth communication in which delays due to connection and re-connection are solved and data errors are prevented, delayed transmission of important data and rapid data processing are performed, and Development of a payment data transmission device and a system is urgently required.
Therefore, the present invention solves the problem of delay due to connection and reconnection of beacon and BLE communication of the conventional BLE technology, and it is possible to solve the problem of delay by minimizing the delay of transmission of payment data and payment through Bluetooth communication It is another object of the present invention to provide a data transmission method, a payment data transmission / reception terminal using the same, and a payment data processing system.
Further, in one embodiment of the present invention, the transmission of the payment data may be performed by performing transmission to the data by limiting the position of the user terminal or when the specific operation of the user is recognized, or by increasing the security through the minimum encryption And a payment data transmission / reception terminal and a payment data processing system using the new method and a payment data transmission method using the Bluetooth communication.
Furthermore, it is an object of the present invention to enhance security in a payment data transmission / reception terminal and a payment data processing system using the above-described new method of transmitting payment data through Bluetooth communication, and to minimize the occurrence of data transmission delays and data errors.
According to one aspect of the present invention, there is provided a method of transmitting data through a Bluetooth communication of a payment data processing apparatus, comprising: a payment data generation step (S200) of generating payment data according to a user's information input; A BLE transmission data generation step (S300) of generating the generated payment data as BLE transmission data to be transmitted as a BLE signal; And transmitting the generated BLE transmission data as a BLE signal (S400), wherein the BLE transmission data is advertising data of BLE communication, and the BLE transmission data generation step S300) generates the edited buiding data (Advertising data) including the payment data, and the BLE signal transmission step (S400) includes an Editing packet (Advertising packet) including the Editing data And a BLE signal of the first terminal.
Preferably, the payment data generation step (S200) includes receiving payment information including payment amount and payment method for purchasing goods from the user and point information, which is information required for use and accumulation processing of points, And generates the payment data according to the information input from the user.
Here, it is preferable that the settlement data generation step (S200) generates a payment data by encrypting a part of one or more pieces of information selected from the payment information and the point information.
Here, the information to be encrypted is at least one of a device identifier and a transaction date and time of the payment data processing apparatus main body, and is encrypted using an OTP (One Time Password) method.
In addition, preferably, the BLE signal transmission step (S400) includes the steps of: receiving the advertisement data as protocol data units (PDUs) of an Edveting packet And transmits the BLE signal of the edging packet.
Here, the PDU (Protocol Data Unit) of the ED packet is a protocol data unit of a connectable undirected event, and the BLE signal transmission step (S400) It is desirable to send the BLE signal to a possible omni-directional event.
Preferably, the protocol data unit (PDU) of the ED packet is a protocol data unit of a scanable undirected event, and the BLE signal transmission step S400 ) Can send a BLE signal with a scanable omni-directional event.
Preferably, the PDU (Protocol Data Unit) of the ED packet is a protocol data unit of a non-connectable undirected event , The BLE signal transmission step (S400) may transmit the BLE signal to a non-connectable non-directional edited buiting event.
Further preferably, the BLE signal transmission step (S400) transmits the BLE signal when a predetermined operation of the user or the user terminal is recognized.
Wherein the predetermined operation is an operation in which the user or user terminal enters a point within a predetermined distance.
The method further includes a BLE termination step 240 for terminating the transmission of the BLE signal or terminating the BLE communication when a response from the user terminal to the BLE signal including the advertising data is received desirable..
Here, the response from the user terminal to the BLE signal is preferably a scan request or a connect request.
The method further includes a user terminal function activation step (S100) in which an application for activating a Bluetooth communication function of the user terminal is loaded on the user terminal in response to receiving a predetermined signal, and the predetermined signal is transmitted to a predetermined area .
Preferably, the predetermined signal is a Bluetooth beacon signal or a Wi-Fi signal.
The method may further include transmitting transaction information including one or more pieces of information selected from the input payment information and point information to a server, and receiving a transaction result and receiving a result (S300). .
In another aspect of the present invention, there is provided a data processing apparatus comprising: a data processing apparatus main body connected to a main body of a data processing apparatus via wired / wireless communication to transmit and receive data of information, and to transmit a BLE signal including data of information Receiving BLE transmission data including payment data generated according to information input from a user via a user interface from a data processing apparatus main body to a payment data transmission / reception terminal for transmission / reception, and transmitting the BLE transmission data And transmits a BLE signal of an Editing packet included in advertisement data of the BLE communication.
Preferably, the mobile communication terminal further includes a second Bluetooth communication module for transmitting a beacon signal to the user terminal. The user terminal is equipped with an application for activating the Bluetooth communication function of the user terminal according to the reception of the beacon signal, The communication module transmits the beacon signal to a predetermined area.
Preferably, the communicable area of the first Bluetooth communication module is set to a shortened distance so that in the shortened distance, the first Bluetooth communication module transmits the edited data including the advertising data, And transmits a BLE signal of an advertising packet.
Preferably, the first Bluetooth communication module further includes at least one muscle strength level sensor, and when the preset operation of the user or the user terminal is recognized through the muscle strength level sensor, And transmits the BLE signal of an Editing packet (Advertising packet) including the advertisement packet.
Preferably, the predetermined operation is an operation in which the user or the user terminal enters a point within a predetermined distance.
According to another aspect of the present invention, there is provided a data processing system including a Bluetooth communication function. The data processing system includes a first Bluetooth communication module, A billing data transmission / reception terminal that performs a function of transmitting / receiving a BLE signal of data required for communication, and a user interface, and generates data of information input from the user through the user interface and transmits the data to the payment data transmission / reception terminal, The Bluetooth communication module controls the payment data transmission / reception terminal to transmit the BLE signal of the information generated in the user terminal and receive the data of the required information, and controls the payment data transmission / reception terminal to transmit the beacon signal The data processing apparatus main body The data processing apparatus main body generates BLE transmission data including payment data according to user information input and transmits the BLE transmission data to the payment data transmission / reception terminal, and the payment data transmission / reception terminal receives BLE transmission data from the data processing apparatus main body And transmits the BLE transmission signal of the ED packet including the BLE transmission data as the advertisement data of the BLE communication through the first Bluetooth communication module.
According to the present invention as described above, in the Ed buiting process prior to the connection of the BLE communication, the BLE transmission data for the payment data is generated as the advertising data for the BLE communication, By transmitting the BLE signal of the advertising packet and transmitting it to the user terminal, the problem of delay due to the connection and reconnection of the BLE communication is solved, and the delay in the transmission of the payment data is minimized, Effect.
In addition, in the connection and reconnection process, the user terminal is brought close to the payment data processing device once to prevent an error in the payment data transmission caused by a user who recognizes that the payment is completed and brings the user terminal back to the original position, Thereby minimizing the inconvenience of the user.
Furthermore, the present invention provides a payment data transmission method using a new Bluetooth communication method which can minimize delay in transmission of payment data and enable rapid subsequent data processing while enhancing security, and an effect of providing a payment data transmission / reception terminal and a payment data processing system using the same .
1 is a configuration diagram of a payment data processing system using a payment data transmission method through Bluetooth communication according to an embodiment of the present invention;
FIG. 2A is a diagram for explaining a configuration of an Editing packet (advertisement packet) including BLE transmission data for payment data according to an embodiment of the present invention as Editing data (Advertising data); FIG.
2B is a diagram for explaining a configuration of settlement data in an embodiment of the present invention
3 is a configuration diagram of a degree of strength sensor control unit according to an embodiment of the present invention;
4 is a flowchart of a payment data transmission method through Bluetooth communication according to the present invention.
5 is a flowchart illustrating a method of transmitting payment data via Bluetooth communication according to an embodiment of the present invention.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with an embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which the claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.
In this specification, a payment data transmission / reception terminal using a payment data transmission method via Bluetooth communication is connected to a data processing apparatus main body through wired / wireless communication to transmit / receive data of information consumed, and includes at least one Bluetooth communication module, And a terminal that performs a Bluetooth communication function that performs a function of transmitting and receiving a BLE signal of data of information required by the Bluetooth communication with the terminal.
The payment data transmission / reception terminal performing the Bluetooth communication function of the present invention may be a variety of data processing devices for transmitting and receiving data of information required for the user terminal through the Bluetooth communication function, for example, payment information and point information And a payment data processing apparatus / system that processes payment data relating to the payment data.
The main body of the data processing apparatus includes a user interface to generate data of information input from the user through the user interface and transmits the generated data to the payment data transmission / reception terminal to transmit a BLE signal of information generated in the user terminal through the Bluetooth communication module, And controls the billing data transmission / reception terminal, and controls the payment data transmission / reception terminal to transmit the beacon signal.
The data processing apparatus main body receives the payment amount and the payment method from the user of the merchant through the user interface, receives the point related information such as the point use and the establishment amount and receives the payment data according to the input of the information of the merchant user And transmits the payment information to the user terminal through the payment data transmitting / receiving terminal, processes the data of a series of information for completing payment by purchasing the article such as approval request / result reception to the payment company / financial institution system Processing of settlement data.
In this case, the data of the information to be consumed includes "payment data" and "payment information ", which means information or data directly used in settlement or an aggregate thereof. And may include data of necessary information.
In this specification, the payment data generally includes data of information required for completion of settlement of payment due to purchase of goods, for example, payment method and payment amount, and data of information used for processing such as use / accumulation of points, The billing data is transmitted to the user terminal and the payment application installed in the user terminal or the user terminal is transmitted to the user terminal in the form of payment Means data necessary for performing the completion processing.
Meanwhile, the main body of the data processing apparatus is defined as a payment data transmitting / receiving terminal and a data processing system of the present invention and is defined as a system that uses or transmits the payment data transmission method through the Bluetooth communication of the present invention, And the payment data transmission / reception terminal are exemplified and described with a separate configuration from each other.
However, the present invention is not limited to this, and the payment data transmitting and receiving terminal of the present invention performs the function of the data processing apparatus main body or is functionally integrated with the data processing apparatus main body, A data processing system including a function may be configured.
Meanwhile, in this specification, the payment data transmission / reception terminal including the function of Bluetooth communication uses two physically separated Bluetooth communication modules including independent antennas, and one Bluetooth communication module transmits Bluetooth data for transmission / And the other Bluetooth communication module used for transmitting / receiving a signal is a Bluetooth data communication terminal for performing a Bluetooth communication used for transmitting a beacon signal.
However, the present invention is not limited to the above-described example, but may be applied to a payment data transmission / reception terminal including two or more physically separated Bluetooth communication modules, each of which includes a Bluetooth communication function for independently transmitting and receiving signals or data.
In the present description and drawings, "BT" is used as an abbreviation of Bluetooth or Bluetooth communication, "BLE" is used as a Bluetooth signal, data, (Bluetooth) "" BLE"
The "BLE signal" means a signal in which data of the information is processed by the Bluetooth system signal, and the data of the information required for the "BLE signal"
Means a signal that carries the function of delivering a periodic signal to a wireless terminal in the radius of the base station in the field of mobile communication. The term " Beacon "or "Quot; BLE signal "refers to a signal used in the" BT "or" BLE "technique other than the" Beacon signal "or the beacon signal.
The "BLE communication" or "general BLE communication" is a method of transmitting / receiving data packets in a connection state between devices in preparation for transmission / reception of packets and data in the advertising state in the Bluetooth state Quot; means a data communication or data communication state or system for transmitting and receiving data.
Hereinafter, the present invention will be described in detail with reference to examples and drawings.
1 is a configuration diagram of a payment data processing system using a payment data transmission method through Bluetooth communication according to an embodiment of the present invention.
The payment data processing system of the present embodiment is used in the payment data transmission method through the Bluetooth communication of the present invention or in the implementation of the payment data transmission method and includes the payment data transmission /
The area of the settlement data processing system of the present embodiment is a region in which the
The Bluetooth communication module, for example, the first BT module of FIG. 1, which transmits the BLE signal of the payment data transmitting / receiving
Basic functional features of the settlement data transmission /
The payment data transmission /
The payment data transmitting and receiving
According to the embodiment, the payment data transmitting / receiving
In this case, the
Upon transmission of the payment data, the payment data transmitting / receiving
At this time, the payment data transmission /
Depending on the embodiment, it may be implemented to send out the BLE signal when a predetermined operation of the user or user terminal is recognized, in the case of the present embodiment, using one or more intensity sensors, And the payment data is transmitted only when the user or the user terminal is recognized as an operation of entering the user or the user terminal to a point within a predetermined distance by the user's or user terminal. do.
Also, according to the embodiment, it may be configured to simply determine whether the user or user terminal is close to the payment data transmission /
Here, the information required for the generation of the payment data is payment related information, and the data processing apparatus
Advertising data is included as a Protocol Data Unit (PDU) of an Editing packet.
The transmission of the BLE signal is carried out in the advertising state according to the current BLE standard, for example BLUETOOTH SPECIFICATION Version 4.2, and in the advertising state, the link layer is used in the Editing Thereby allowing an advertisement packet to be transmitted. Also, in the advertising state (advertisement state), a scan response may be responded to by a scan response.
In the case of stopping the advertisement, the user can return to the standby state. If the device receives a connection request from the initiate state (Connect Request), it enters the connection state You may.
The Advertising State is one of the following types:
- Connectable Undirected Event -
- Connectable Directed Event
- Non-connectable Undirected Event (Non-connectable)
- Scannable Undirected Event
Events in the advertising state are defined as follows.
In the case of the present invention, since the user terminal to receive the settlement data is not specified, a Connectable Undirected Event (Scandable), a Connectable Undirected Event An undirected event, or a non-connectable undirected event that is not connectable.
Accordingly, the Edging data including the payment data may include protocol data units of connectable undirected events, protocol data of a scanable undirected event, Unit, or a non-connectable undirected event (Non-connectable Undirected Event) of the protocol data unit (PDU).
Each constitutes a different embodiment as follows.
In the first embodiment in which the BLE signal is transmitted to the connectable undirected event (connectable undirected event) from the payment data transmitting / receiving
If the response is normally received, the payment data transmission /
Meanwhile, in the case of the second embodiment in which the BLE signal is transmitted to the non-connectable undirected event which is not connectable, the non-connectable undirected event, which is not connectable, (ADV_NONCONN_IND) does not request or receive a response from the
In addition, the BLE signal can be transmitted as a Scannable Undirected Event in the payment data transmission /
Accordingly, the payment data transmitting / receiving
Accordingly, unlike normal BLE communication, when a response to the edging is normally received through the first and third embodiments, the present invention does not enter a connection state, And terminates the BLE communication.
On the other hand, in the case of the second embodiment, an edited buiting event is performed to transmit an edited packet for a predetermined period of time with a predetermined number of times and a predetermined period irrespective of reception of a response, And terminates the event bu ering event and the BLE communication.
Accordingly, the problem of delay due to the connection and reconnection of the BLE communication is fundamentally solved in the transmission of the settlement data, and the possibility that the settlement data is received at the other user terminal is lowered, thereby preventing the error of the settlement data processing.
The beacon signal includes a command or data for activating a Bluetooth communication function by an application installed in a user terminal that has entered a preset signal detection area such as a store or includes a command or data for activating a specific payment application, Accordingly, the user terminal having received the beacon signal enables the mounted application to activate the Bluetooth communication function or activate the specific payment application.
According to an embodiment of the present invention, the beacon signal includes a command or data for performing an information transfer function such as advertisement or coupon transmission to a user in a predetermined area such as a shop.
In addition, the BLE signal of data of information required from the user terminal through the Bluetooth communication is received and transmitted to the data processing apparatus
The data processing apparatus
According to an embodiment of the present invention, the payment information may be generated by encrypting a part of one or more pieces of information selected from the payment information and the point information. In this embodiment, One or more transactions can be encrypted at one or more of the date and time by using an OTP (One Time Password) method to achieve both security and efficiency.
In the case of the present invention, payment data is not transmitted by a normal BLE communication connection, and the data processing apparatus
The data processing apparatus
According to an embodiment, the data processing apparatus
The beacon signal and the Wi-Fi signal of the specific function include a command or data for activating the Bluetooth communication function by the application installed in the user terminal entering the preset signal detection area such as a shop, Or data is transmitted to the user terminal that receives the beacon signal or the Wi-Fi signal of the specific function, so that the mounted application activates the Bluetooth communication function or activates the specific payment application.
In addition, the receivable area of the beacon signal and the Wi-Fi signal of the specific function is pre-set in the data processing apparatus
The
The pre-set signal may include at least one of the beacon signal or the Wi-Fi signal, the reception distance of which is adjusted to the above-described signal detection area. If both signals are used, the Bluetooth function or the Wi- When one of them is on, the beacon signal or the Wi-Fi signal is received, and the Bluetooth communication function is activated to receive payment data to be transmitted.
The beacon signal can be received when the Bluetooth communication module of the user terminal is turned on in the environment where the beacon signal and the Wi-Fi signal are simultaneously transmitted to the signal detection area set in the store, The Bluetooth communication module of the user terminal is turned off and the Bluetooth communication module of the user terminal is turned off and the Bluetooth communication module of the user terminal is switched to the scanning mode to receive the BLE signal of the Editing Voting Packet The Bluetooth communication module turns on the Bluetooth communication module according to the reception of the Wi-Fi signal, activates the Bluetooth communication module, receives the beacon signal, and similarly scans the communication status of the Bluetooth module of the user terminal Mode, It may be implemented to receive the BLE signal easing packet (packet Advertising).
When both of the Bluetooth communication module and the Wi-Fi communication module of the user terminal are both on and the beacon signal is received in a case where both of the two signals are received, Is switched to the scanning mode to receive the BLE signal of the Editing packet.
In this embodiment, the application for activating the Bluetooth communication function controls the function of the Bluetooth communication module built in the user terminal and sends a response to the BLE signal received from the payment data transmitting / receiving
In the first embodiment in which the BLE signal is transmitted to the connectable undirected event from the settlement data transmitting / receiving
In the case of the third embodiment of the present invention, in which the BLE signal is transmitted as a Scannable Undirected Event in the payment data transmitting / receiving
Meanwhile, in the case of the second embodiment in which the BLE signal is transmitted to the non-connectable undirected event which is not connectable, the non-connectable undirected event, which is not connectable, (ADV_NONCONN_IND) does not request or receive a response to the
In addition, one or more payment applications for processing payment data are installed in the
5, the payment application configuration part is defined as the
In this embodiment, the
FIG. 2A is a diagram for explaining a configuration of an Editing packet (advertisement packet) including BLE transmission data for payment data according to an embodiment of the present invention as advertisement data, and FIG. Fig. 2 is a diagram for explaining a configuration of settlement data according to an embodiment of the present invention. Fig.
Referring to FIG. 2A, an advertisement packet, which includes BLE transmission data for payment data in the above-described embodiment of the present invention as advertisement data, is transmitted to a BLE standard such as BLUETOOTH SPECIFICATION This is a general advertisement packet according to Version 4.2, consisting of Preamble, Access Address, Packet payload and CRC (Cyclic Redundancy Check), and transmitted in the above order.
The packet payload has a payload structure in which a header and an Advertising PDU (AdvA + AdvData) are recorded. In the AdvData area of the Advertising PDU, the
Referring to FIGS. 2A and 2B, the
(1) The payment category is a code for identifying each card company, and a data area of 1 byte is allocated. ② 1 byte of data area is assigned as the code for identifying the approval / cancellation, ③ 1 byte for the professional version, ④ 4 bytes for the DEVICE ID, ⑤ 8 bytes for the transaction date /
Concrete configurations of embodiments of the settlement data transmission /
Referring to FIG. 1, the data transmitting / receiving
The data transmitting and receiving
Particularly, as an embodiment of the present invention, the data transmission /
The control application is stored in a memory of the
Each controller may be included in modules of the
The first
The first
In addition, the first
Specifically, when the data processing apparatus
According to the embodiment, the first Bluetooth communication module may be used to transmit the BLE signal of the payment data that is preset and fixed in the communicable area, and in the case of this embodiment, the BLE signal of the payment data may be transmitted Which is fixed in the settlement area.
The apparatus main body I /
Recognizes the operation of the user or the user terminal by recognizing the operation of the user or the user terminal at the shortened distance by the sensor module which recognizes the operation through the isometric sensor (s) 112, Determines whether or not the operation is consistent with the predetermined operation, and transmits the result to the data processing apparatus
The predetermined operation is an operation of entering a point within 10 Cm which is a predetermined distance, for example, a distance closer to 20 cm shorter than the short-circuited distance, for example, a proximal distance, and the user terminal is moved to a point within a distance shorter than the short- It can be judged that it coincides with the preset operation when it is recognized as the entering operation.
The at least one of the two or more
According to an embodiment of the present invention, it is possible to simply determine whether a user or a user terminal is close to the payment data transmission /
In addition, according to an embodiment, the data transmission /
It is possible to restrict the case of entering into the second proximity distance or to match the preset operation so that the process of data of the required information including the transmission of the above-mentioned BLE signal of the present invention is carried out only when it coincides with the predetermined operation, It is possible to secure the property and prevent the error of the data processing.
The beacon / BLE control unit changes the settings of the communicable areas of the first
In addition, according to an embodiment, the set value of the communicable area of the Bluetooth communication module is stored in the beacon / BLE setting control unit as a preset value or a received value, and is set by a control command of the data processing apparatus
The beacon / BLE control unit activates the BLE communication function or the beacon signal transmission of the first
The degree of mynorality sensor controller of the present embodiment controls one or more of the
In addition, in the present embodiment, when the instruction to activate the operation recognition function of the muscle tone level sensor is received in accordance with the input of the payment amount and the payment method of the seller, the muscle tone level sensor controller of the present embodiment activates the muscle tone level sensor, When the recognition of the operation of the apparatus
According to an embodiment of the present invention, the input signal from the muscle tone level sensor is processed in accordance with the range value of the motion recognition and the content value of the motion recognition to recognize the motion within 20 cm, for example, within the predetermined settlement area, It is determined whether it is an approaching operation within a proximity distance of, for example, 10 cm or a preset operation in a settlement area, and outputs a resultant signal.
Also, according to the embodiment, it may be configured to simply determine whether the user or user terminal is close to the payment data transmission /
FIG. 3 is a block diagram of a degree of mynorality sensor control unit according to an embodiment of the present invention. Referring to FIG. 3A, the degree of mynorality sensor control unit of the present embodiment basically determines whether there is a movement of a user terminal or a user A distance calculating unit for calculating the distance of the motion, a speed calculating unit for calculating the direction, time, or speed of the motion, and a motion calculating unit for calculating at least one of the motion, distance, direction, Value to determine whether the operation in the settlement area coincides with the predetermined operation, and outputs the resultant signal. In the case where only the entry into the near proximity distance is judged as in the present embodiment, the operation can be recognized only by information entered by the user terminal or the user in the setting area, that is, the distance of the operation recognition range value. In this case, Processing can be performed.
The MST control unit controls the
On the other hand, the data processing apparatus
The data processing apparatus
The data processing apparatus
The Bluetooth module that transmits the beacon signal is always activated to periodically transmit a predetermined beacon signal or generate a beacon signal to perform a function of advertising or coupon transmission to a user within a predetermined area But the beacon signal for activating the payment APP related to the payment data processing can be controlled so as to be transmitted only at the time of the payment process started by inputting the payment amount of the user of the merchant and the payment method.
The data processing apparatus
According to an embodiment of the present invention, the payment data processing system including the Bluetooth communication function transmits only the payment information to the
According to an embodiment of the present invention, the data processing apparatus
According to an embodiment of the present invention, the payment data transmitting / receiving
Hereinafter, with reference to FIG. 4 and FIG. 5, an embodiment of a payment data transmission method through Bluetooth communication of the present invention will be described in detail.
FIG. 4 is a flowchart of a payment data transmission method using Bluetooth communication according to the present invention, and FIG. 5 is a detailed flowchart illustrating a payment data transmission method using Bluetooth communication according to an embodiment of the present invention.
As shown in FIG. 4, the payment data transmission method through Bluetooth communication according to the present invention is a method of transmitting data through Bluetooth communication of the payment data transmission / reception terminal as described above. Basically, A BLE transmission data generation step S300 for generating BLE transmission data to be transmitted as a BLE signal, a BLE signal transmission step S400 for transmitting the generated BLE transmission data to a BLE signal, ), And is performed by the settlement data transmitting / receiving
The BLE transmission data is Advertising data of the BLE communication. The BLE transmission data generation step (S300) generates the Editing data (Advertising data) including the payment data and outputs the BLE transmission data The transmission step (S400) transmits a BLE signal of an Editing packet (Advertising packet) including Editing data (Advertising data).
In addition, the
Further, a BLE termination step (S500) for ending the transmission of the BLE signal or terminating the BLE communication when a response from the user terminal to the BLE signal including the advertisement data is received .
Specifically, in the first embodiment in which the BLE signal is transmitted to the billing data transmitting / receiving
On the other hand, in the case of the second embodiment in which the BLE signal is transmitted to the non-connectable undirected event which is not connectable, since the
The payment data generation step (S200) may include receiving at least one selected from the payment information including the payment amount and the payment method for purchasing goods from the user, and the point information, which is information required for the usage and accumulation processing of the points , A process of generating the payment data according to the information input by the user, a payment process including payment amount and payment method for purchasing goods from the user of the merchant through the user interface (not shown) of the data processing apparatus
The point accumulation information required to accumulate points among the point information may be automatically calculated by a predetermined method in accordance with the input of the payment information and may be included in the payment data.
According to an embodiment, the payment data generation step (S200) can generate payment data by encrypting a part of one or more pieces of information selected from the input payment information and point information, and considering the security and the efficiency, May be encrypted in a one time password (OTP) scheme using at least one of a device identifier and a transaction date and time of the settlement data processing apparatus main body.
2A, the payment data of the embodiment of the present invention is generated. In the case of the payment data of FIG. 2A, when the device identifier (Device ID) of the main body of the payment data processing apparatus, the transaction date and time and the random number are encrypted to be.
Also, the size of the AdvData area (0 to 31 bytes) of each protocol data unit (PDU) to be recorded with the payment data is considered, and the size of the payment data according to the present embodiment is the size of the protocol data unit (PDU) Unit (29 bytes) smaller than the size of the AdvData area of the data area.
In addition, as described above, the entire payment data generated by encrypting a part of the information is encrypted again through a known encryption algorithm to improve the security of the information. This is because the BLE communication is a secret key (a unique number composed of numbers) And a communication channel between the two terminals is formed through a shared secret key. In order to overcome the real problem that the encryption technique is not applied, the security problem such as a sniffing attack is weak.
The BLE transmission data generation step S300 is a process of generating advertisement data including the payment data, and the BLE transmission data generation step S300 includes the steps of: It is generated in a form suitable for protocol data unit (PDU).
The ED packet has a structure of an edited packet of a general current BLE standard such as BLUETOOTH SPECIFICATION Version 4.2 as shown in FIG. 2A, and has an AdvData field of each protocol data unit (PDU) Payment data is recorded.
The BLE signal transmission step S400 may include transmitting an Editing packet including the advertisement data as a protocol data unit (PDU) of an Editing packet And transmits the BLE signal of the edging packet.
In the first embodiment in which the BLE signal is transmitted to the connectable undirected event from the payment data transmission /
In this case, the Connectable Undirected Event (ADV_IND) is transmitted to the
Accordingly, in the case where a response to the Ed bueting is normally received through the first and third embodiments, unlike the general BLE communication, the present invention does not enter the connection state, In the case of the second embodiment, an Editing Billing Event is performed to transmit an Editing Buffering Packet for a preset time period and a predetermined number of times irrespective of the reception of the response. And terminates the edging event and the BLE communication when the preset time is ended.
Accordingly, the problem of delay due to the connection and reconnection of the BLE communication is fundamentally solved in the transmission of the settlement data, and the possibility that the settlement data is received at the other user terminal is lowered, thereby preventing the error of the settlement data processing.
According to an embodiment of the present invention, as in the case of the second embodiment in which the BLE signal is transmitted to the non-connectable undirected event (non-connectable undirected event) described above, The protocol data unit (PDU) is set to a protocol data unit of a non-connectable undirected event that is not connectable, and the BLE signal transmission step (S400) It is also possible to send a BLE signal with an omni-directional edging event.
In this case, since the non-connectable undirected event (ADV_NONCONN_IND) that is not connectable does not request or receive a response to the
Also, according to the embodiment, as in the third embodiment in which the BLE signal is transmitted in a Scannable Undirected Event that can be scanned by the payment data transmission /
In this case, the scanable undirected event (ADV_SCAN_IND) sends a scan request (SCAN_REQ) to the user terminal, which is a scanner, to obtain additional information from the payment data transmitting / receiving
The BLE signal transmission step (S400) may be performed to transmit the BLE signal when a predetermined operation of the user or user terminal is recognized, and in the case of the present embodiment, the predetermined operation is performed at a point within a predetermined distance, And the user or user terminal enters into the second proximity point.
The recognition of the operation can be realized by the operation recognizing function of one or more of the myoelectricity sensors according to the control of the degree of myoelectricity sensor controller of the payment data transmitting and receiving
(S600) of transmitting transaction information including one or more pieces of information selected from the input payment information and point information of the present invention to a server and receiving a transaction result, The transaction information transmitted to the server may be transmitted to the
The method for transmitting payment data through Bluetooth communication of the present invention is performed in the payment data processing system of the embodiment of the present invention described with reference to FIG. 1, and the detailed flow is as shown in FIG.
5, the payment data processing system includes a settlement data transmitting / receiving
The
In this embodiment, the
5, in the present embodiment, the beacon signal is transmitted by the
(Not shown) of the data processing apparatus
Next, the data processing apparatus
The
Upon receiving the payment data, the
Meanwhile, in the case of the present embodiment, in the first embodiment in which the BLE signal is transmitted to the connectable undirected event (connectable undirected event) from the settlement data transmission /
On the other hand, in the case of the second embodiment in which the BLE signal is transmitted to a non-connectable undirected event that can not be connected, the transmission of the BLE signal due to the edging is terminated after a predetermined time elapses BLE to terminate the BLE communication can be terminated.
Then, the data processing apparatus
As has been described above, specific combinations of configurations or steps of the present invention have been described in detail by way of the above embodiments, but other combinations of such configurations and steps are likewise possible. The present invention is not limited to the specific embodiments disclosed herein, and such other combinations are within the scope of the present invention. Therefore, the present invention is not limited to the above-described embodiments, and various modifications and changes may be made thereto by those skilled in the art to which the present invention belongs.
100: Payment data transmission / reception terminal
200: main body of data processing apparatus
300: user terminal
Claims (21)
A billing data generation step (S200) of generating billing data according to a user's information input;
A BLE transmission data generation step (S300) of generating the generated payment data as BLE transmission data to be transmitted as a BLE signal;
And a BLE signal transmission step (S400) of transmitting the generated BLE transmission data as a BLE signal,
The BLE transmission data is Advertising data of the BLE communication. The BLE transmission data generation step (S300) generates the Editing data (Advertising data) including the payment data and outputs the BLE transmission data The transmitting step (S400) transmits a BLE signal of an Editing packet (Advertising packet) including Editing data (Advertising data).
The payment data generation step (S200) includes a step of receiving at least one selected from the payment information including the payment amount and the payment method for purchasing goods from the user, and the point information, which is information required for the use and accumulation processing of the points, And generating the payment data according to information input from a user.
The payment data generating step (S200) generates a payment data by encrypting a part of the selected one or more pieces of the payment information and the point information.
Wherein the encrypted information is at least one of a device identifier and a transaction date and time of the payment data processing apparatus main body, and is encrypted using an OTP (One Time Password) method.
The BLE signal transmission step S400 is a step of transmitting an Editing Buffering Packet including an Editing Buffer Data Packet (PDU) as an Editing Buffer Packet And transmitting the BLE signal.
The protocol data unit (PDU) of the ED packet is a protocol data unit of a connectable undirected event, and the BLE signal transmission step (S400) And transmitting a BLE signal in a directional event.
The Protocol Data Unit (PDU) of the ED packet is a protocol data unit of a Scannable Undirected Event, and the BLE signal transmission step (S400) And transmitting a BLE signal in a directional event.
The protocol data unit (PDU) of the ED packet is a protocol data unit of a non-connectable undirected event which can not be connected, and the BLE signal transmission And the step (S400) transmits a BLE signal to a non-connectable non-directional edited buiting event.
The BLE signal transmission step (S400) transmits the BLE signal when a predetermined operation of the user or the user terminal is recognized.
Wherein the predetermined operation is an operation in which the user or the user terminal enters a point within a predetermined distance.
And a BLE termination step (S500) for terminating the transmission of the BLE signal or terminating the BLE communication when a response from the user terminal to the BLE signal including the advertising data is received And transmitting the data through the Bluetooth communication.
Wherein the response from the user terminal to the BLE signal is a scan request or a connect request.
And a user terminal function activation step (S100) in which an application for activating a Bluetooth communication function of the user terminal is loaded on the user terminal in response to receiving a predetermined signal, and the predetermined signal is transmitted to a predetermined area And transmitting the data through the Bluetooth communication.
Wherein the predetermined signal is a Bluetooth beacon signal or a Wi-Fi signal.
Further comprising a transaction transmission and a result reception step (S300) of transmitting transaction information including one or more pieces of information selected from the input payment information and point information to a server and receiving the processing result. / RTI >
The BLE transmission data including the payment data generated according to the information input from the user through the user interface of the main body of the data processing apparatus is transmitted from the data processing apparatus main body to the BLE transmission data through the first Bluetooth communication module, And transmits a BLE signal of an Editing packet (Advertising packet) in which data is included as advertising data of BLE communication.
And a second Bluetooth communication module for transmitting a beacon signal to the user terminal. The user terminal is equipped with an application for activating the Bluetooth communication function of the user terminal according to the reception of the beacon signal, And transmits a beacon signal to a predetermined area.
Wherein the communication area of the first Bluetooth communication module is set to a shortened distance so that the first Bluetooth communication module transmits the edited buiding packet (Advertising (BLE) signal of the packet.
Wherein the first Bluetooth communication module includes one or more robustness sensors such that when the predetermined operation of the user or user terminal is recognized through the robustness sensor, the first Bluetooth communication module transmits a BLE signal including the advertising data And transmits the payment data.
Wherein the predetermined operation is an operation in which the user or the user terminal enters a point within a predetermined distance.
And transmits and receives data of information required to be connected to the main body of the data processing apparatus through wired / wireless communication, and transmits / receives BLE signals of data of information required by the Bluetooth communication with the user terminal including the first Bluetooth communication module A payment data transmission / reception terminal, and
And transmits the BLE signal of the information generated in the user terminal through the first Bluetooth communication module and transmits the data of the information to the payment data transmitting / receiving terminal through the first Bluetooth communication module And a data processing apparatus main body that performs a function of controlling a payment data transmission / reception terminal to receive and controls the payment data transmission / reception terminal to transmit a beacon signal,
The data processing apparatus main body generates BLE transmission data including payment data in accordance with user information input and transmits the BLE transmission data to the payment data transmission / reception terminal. The payment data transmission / reception terminal receives BLE transmission data from the data processing apparatus main body, And transmits a BLE signal of an Editing packet (Advertising packet) in which the BLE transmission data is included as Advertising data of the BLE communication through a Bluetooth communication module.
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WO2018199352A1 (en) * | 2017-04-26 | 2018-11-01 | 김종각 | Method for transmitting payment data through bluetooth communication, and payment data transmission/reception terminal and payment data processing system using same |
KR20210054921A (en) * | 2019-11-06 | 2021-05-14 | (주)에이텍티앤 | Vehicle boarding management device and method using high precision low power bluetooth signal encryption |
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KR102350841B1 (en) * | 2020-12-31 | 2022-01-14 | 주식회사 비코닉스 | Method and Apparatus for Processing Data for BLE-Mesh-Network-Based Payment System |
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KR101579118B1 (en) * | 2015-05-22 | 2015-12-21 | 이제원 | Payment information send/receive device by bluetooth communication, method and program for payment bt mobile device |
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WO2018199352A1 (en) * | 2017-04-26 | 2018-11-01 | 김종각 | Method for transmitting payment data through bluetooth communication, and payment data transmission/reception terminal and payment data processing system using same |
KR20210054921A (en) * | 2019-11-06 | 2021-05-14 | (주)에이텍티앤 | Vehicle boarding management device and method using high precision low power bluetooth signal encryption |
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