KR102030999B1 - Method and System for Relaying Payment that Can Save Energy of a Terminal - Google Patents

Abstract

Disclosed are a payment mediation system and a method thereof. According to an aspect of an embodiment of the present invention, the system for mediating a payment to start a payment with a payment terminal by a card to be used by the terminal comprises: a payment mediation device performing a physical verification of a card for a payment with a payment terminal by using pre-stored data for the physical verification of the card without having information of the card to be used by the terminal; and a beacon allowing the terminal searching for the payment mediation device at a preset interval to recognize that the payment mediation device exists in a preset range and transmitting an advertisement signal in order to search for the payment mediation device at an interval more frequent than the preset interval.

Description

Method and System for Relaying Payment that Can Save Energy of a Terminal}

The present invention relates to a payment relay system and method that can save energy of the terminal.

The content described in this section merely provides background information on one embodiment of the present invention and does not constitute a prior art.

The first generation card was used in the balance of the deposit account using a physical medium of a predetermined shape, or the amount used after the first use was billed later. Each card has a card ID, and the card ID is charged, settled and settled based on the card ID. In order to charge or make payments, information is exchanged between a card and a payment terminal.

The exchange of information is done using signed data including the card and the terminal's unique key. In other words, when using the card, the unique key should never be exposed, and if the key is exposed, a third party may charge the card without paying the money or manipulate the money in the card. Cause. In the case of a physical card, when the card is issued, the unique key of the card is embedded in the card together with the card ID.

Since the physical first generation card exists as a physical medium separately, there was an inconvenience in storage or management. In addition, since anyone who owns the card can use it, there is a problem that a third party cannot prevent the card from being used.

In order to solve such a problem when the use of the smart phone is universal, an app card application that can be downloaded and used in the smart phone has been released. The app card application can partially compensate for the problem of the conventional physical first generation card by allowing a smartphone user to make a payment at an online merchant without carrying a physical credit card.

Conventionally, an app card payment method in an offline merchant through an app card application generates and displays a barcode including credit card information of a smartphone user in a smartphone on which the app card application is executed, and then installs a CAT (Credit Authorization) installed in the offline merchant. Terminal) Recognizes the credit card information of a smartphone user through a barcode scan in payment terminals such as terminals and point of sale terminals, and sends payment information and credit card information to a credit card company server for payment. App card app sends the user's credit card information to the app card payment dongle through proximity communication between the smartphone running the app card app and the app card payment dongle installed in the offline merchant. The P0S terminal or CAT terminal connected to the There is a method of making a payment by transmitting to a credit card company server.

However, in the conventional method, payment must be performed only after the user executes the smartphone to make a payment and activates the app card application for the payment, and the user must take the smartphone near the payment terminal to make the payment. There is a inconvenience to be performed. Therefore, when the user is carrying a heavy load or in a situation where both hands are restricted, the payment may be disturbed.

Accordingly, there is a need for payment that is easier to use while solving the problems of the conventional physical first generation card.

One embodiment of the present invention is to provide a payment relay system and method for performing a payment between the terminal and the payment terminal by transmitting and receiving data or signals between the payment terminal and the terminal using a beacon and the payment relay device. have.

In addition, an embodiment of the present invention, to provide a payment relay system and method for allowing a terminal to perform communication at low power using a beacon in communicating with a payment relay device for the progress of payment. There is a purpose.

According to an aspect of the present invention, in the system for relaying payment so that payment can be started with the payment terminal to the card to be used by the terminal, for physical verification of the card without retaining information of the card to be used by the terminal. A payment relay device performing physical verification of the payment terminal and a card for payment using previously stored data and a terminal searching for the payment relay device at a predetermined interval recognize that the payment relay device exists within a preset range. It provides a payment relay system comprising a beacon for transmitting an advertising signal to search for the payment relay at intervals more frequently than the predetermined interval.

According to an aspect of the present invention, the terminal receives the advertisement signal and searches for the payment relay device, characterized in that for connecting the session for wireless communication with the payment relay device.

According to an aspect of the present invention, the payment relay device is characterized in that the physical verification of the card for payment with the payment terminal only when the terminal meets a predetermined condition.

According to an aspect of the invention, the terminal is characterized in that after connecting the session with the payment relay device, and transmits data that proves that the terminal meets the predetermined conditions.

According to an aspect of the present invention, in a method for relaying a payment so that a payment relay system including a beacon and a payment relay device may start a payment with a payment terminal with a card to be used by a terminal, the payment relay at predetermined intervals. The terminal searching for the device recognizes that the payment relay device exists within a preset range and transmits an advertisement signal to search for the payment relay device at intervals more frequent than the predetermined interval, and for wireless communication with the terminal. After the session is connected, a confirmation process for checking whether the terminal meets a preset condition and if the terminal meets a preset condition, the physical of the card is irrelevant to the card to be used by the terminal. Physical data of the payment terminal and the card for payment using previously stored data for verification It provides a payment relay method comprising a verification process for performing the verification.

According to an aspect of the present invention, the terminal receives the advertisement signal and searches for the payment relay device, characterized in that for connecting the session for wireless communication with the payment relay device.

According to an aspect of the invention, the terminal is characterized in that after connecting the session with the payment relay device, and transmits data that proves that the terminal meets the predetermined conditions.

As described above, according to an aspect of the present invention, by transmitting and receiving data or signals between a payment terminal and a terminal by using a payment relay device, payment is performed between the payment terminal and the card management server even if the user does not execute the terminal and the application. There is an advantage to be.

In addition, according to an aspect of the present invention, when the terminal communicates with the payment relay device for the progress of the payment, there is an advantage that can be performed at low power without constantly consuming a lot of power.

1 is a diagram showing the configuration of a payment relay system according to an embodiment of the present invention.
2 is a diagram illustrating a configuration of a terminal according to an embodiment of the present invention.
3 is a diagram illustrating a configuration of a payment relay device according to an embodiment of the present invention.
4 is a diagram illustrating a configuration of a payment terminal according to an embodiment of the present invention.
5 is a timing chart illustrating a process of performing physical authentication according to an embodiment of the present invention.
6 is a flowchart illustrating a method for performing physical authentication by a payment relay device according to an embodiment of the present invention.
7 is a timing chart illustrating a process of performing a payment according to an embodiment of the present invention.
8 is a flowchart illustrating a method of performing a payment by a payment relay device according to an embodiment of the present invention.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements.

Terms such as first, second, A, and B may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component. The term and / or includes a combination of a plurality of related items or any item of a plurality of related items.

When a component is said to be "connected" or "connected" to another component, it may be directly connected to or connected to that other component, but it may be understood that another component may be present in the middle. Should be. On the other hand, when a component is said to be "directly connected" or "directly connected" to another component, it should be understood that there is no other component in between.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. It is to be understood that the term "comprises" or "having" in the present application does not exclude in advance the possibility of the presence or addition of features, numbers, steps, operations, components, parts or combinations thereof described in the specification. .

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art.

Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

1 is a diagram showing the configuration of a payment relay system according to an embodiment of the present invention.

1, the payment relay system 100 according to an embodiment of the present invention includes a terminal 110, a payment relay device 120, an RF antenna 125, a payment terminal 130, and a card management server 140. ) And beacon 150.

The terminal 110 is a device to perform a payment with the payment terminal 130 using a card previously issued.

The terminal 110 connects the session for wireless communication with the payment relay device 120. The terminal 110 scans an existing device for connection of a session, and connects the session with the payment relay device 120 by recognizing a specific identifier of the payment relay device 120 among the scanned devices. Here, the wireless communication may be any type that can be connected to the session between the terminal 110 and the payment relay device 120 without a separate input from the user of the terminal 110, for example, Bluetooth can do. When wireless communication is implemented using Bluetooth, the terminal 110 and the payment relay device 120 may be paired by connecting a session. In the following description, for convenience of description, the wireless communication is limited to being implemented by Bluetooth, but any wireless communication having the above-described properties may be replaced.

In this case, the terminal 110 frequently scans the Bluetooth device in order to connect the session with the payment relay device 120. However, when frequently scanning a Bluetooth device (corresponding to a payment relay device in one embodiment of the present invention) that does not know where the terminal is located and when the session can be connected, battery consumption of the terminal 110 may be accelerated. Even if the terminal 110 attempts to connect a session with the payment relay 120 using low power Bluetooth, unnecessary power consumption for the search of the payment relay 120 is generated.

In order to prevent such unnecessary power consumption, the terminal 110 minimizes scanning of the Bluetooth device until receiving the advertising type signal from the beacon 150. For example, the terminal 110 may perform scanning of the Bluetooth device (payment relay 120) every few minutes. When the terminal 110 operates as described above and receives an advertisement type signal from the beacon 150 to detect the beacon, the terminal 110 maximizes the scanning speed of the Bluetooth device. For example, the terminal 110 may detect the beacon 150 and perform scanning of the Bluetooth device (payment relay 120) every tens to hundreds of ms. After detecting the beacon 150, the terminal 110 activates scanning of the Bluetooth device (payment relay device), thereby minimizing power consumed for scanning the Bluetooth device.

The terminal 110 transmits and receives necessary data after connecting the session with the payment relay device 120. The terminal 110 must perform authentication to use a service provided by the payment relay system. Accordingly, the terminal 110 checks the ID of the card previously issued to the payment relay device 120 so that the payment relay device 120 can check whether the card to be used by the terminal 110 is a card subscribed to the corresponding service. send.

The terminal 110 receives a signal for validating the card from the payment relay device 120 and transmits a signal for authenticating the validity of the card to the payment relay device 120. The terminal 110 receives a signal for validating a card to be checked by the payment terminal 130 through the payment relay device 120 instead of the payment terminal 130. As described above, since the terminal 110 is connected and communicated with the payment relay device 120 without any separate input, the terminal 110 does not need to be activated. In addition, since the terminal 110 receives a signal to be confirmed by the payment terminal 130 from the payment relay device 120 instead of the payment terminal 130 through wireless communication, the user of the terminal 110 is connected to the terminal 110. Even if the signal is not brought near the payment terminal 130, transmission and reception of a signal may be performed.

Thereafter, the terminal 110 receives a signal or a signature for payment from the payment relay device 120 and transmits it to the card management server 140 or receives it from the card management server 140 and transmits the signal or signature to the payment relay device 120. do. Again, as described above, the terminal 110 does not need to be activated and the terminal 110 does not need to approach the payment terminal 130.

The payment relay device 120 emulates a card so that payment can be initiated so as to perform physical authentication of the card, and relays transmission and reception of data or signals between the payment terminal 130 and the terminal 110.

A session for wireless communication is connected to the terminal 110 and the payment relay device 120. The payment relay device 120 has a specific identifier that allows the terminal 110 to easily check after scanning. The terminal 110 recognizes a specific identifier and connects the session with the payment relay device 120. As described above, when wireless communication is implemented using Bluetooth, the payment relay device 120 may be paired with one terminal and may be simultaneously paired with a plurality of terminals to transmit and receive signals or data with the plurality of terminals.

The payment relay device 120 receives the card ID from the terminal 110 to authenticate the card. The payment relay device 120 receives the ID of the card to be used by the terminal 110 from the terminal 110 using the connected session, and checks whether the corresponding card is a card subscribed to a service provided by the payment relay system.

If the card is a service subscription card, the payment relay device 120 controls the RF antenna 125 to perform physical verification with the payment terminal 130. In order for payment to be initiated between the payment terminal 130 and the card, the card has to be physically verified in close proximity to the payment terminal 130, and then payment is initiated only after software verification. The payment relay 120 controls the RF antenna 125 to perform physical verification with the payment terminal 130, thereby replacing the proximity of the terminal 110 including the card or the app card. The payment relay device 120 is physically connected to the RF antenna 125, and checks the signal or data received by the RF antenna 125, and transmits the signal or data transmitted by the RF antenna 125 to the RF antenna 125. to provide. That is, when the RF antenna 125 receives a signal for requesting physical verification of the card from the payment terminal 130, the payment relay device 120 receives a signal for causing the RF antenna 125 to perform physical authentication of the card. The signal is provided to the RF antenna 125 so as to be transmitted to the payment terminal 130. The payment relay device 120 recognizes the payment terminal 130 as if there is a card that has undergone physical verification to perform the payment with the payment terminal 130 near the payment terminal 130. The payment relay device 120 does not perform verification on behalf of the terminal by using information on the card that the actual terminal 110 intends to use (payment, etc.), but the card that the terminal 110 intends to use (payment, etc.). Irrespective of the information, the terminal 110 substitutes the physical verification of the card to be used by the terminal 110 using the data stored in the payment relay 120 for physical verification. In other words, when the card is a service subscription card, the payment relay device 120 performs physical verification of the card using the pre-stored data regardless of the card information used by the actual terminal. As such, the payment terminal 130 completes the physical verification for performing the payment.

The payment relay device 120 communicates with the payment terminal 130 by using an RF antenna and wirelessly communicates with the terminal 110 by a connected session, and transmits a signal or data to be transmitted and received for card validation and payment. Pass from one device to another.

The RF antenna 125 is physically connected to the payment relay device 120 to transmit a signal or data provided from the payment relay device 120 to the payment terminal 130 or a signal or data received from the payment terminal 130. Transfer to the payment relay device 120. The RF antenna 125 transmits and receives a signal or data to the payment terminal 130 using near field communication such as NFC communication. The RF antenna 125 communicates with the payment terminal 130 using near field communication. Since the RF antenna 125 physically connected to the payment relay device 120 communicates with the payment terminal 130, the payment relay device 120 transmits a signal or data to be transmitted using the RF antenna. 130).

The payment terminal 130 is a device that verifies an accessing card and performs a payment with the verified card.

The payment terminal 130 directionally or omni-directionally transmits a signal for performing physical and software verification of the card at predetermined intervals. The payment terminal 130 performs physical and software verification of the card with the payment relay device 120 or the terminal 110 by using the communication with the RF antenna 125.

When the verification is completed, the payment terminal 130 performs payment by finally communicating with the card management server 140 by using the communication with the RF antenna 125. The payment terminal 130 transmits and receives an electronic signature with the card management server 140 to request payment for the payment amount.

The card management server 140 is a device that performs payment with the payment terminal 130 using a card previously issued by the terminal 110.

The card management server 140 communicates with the payment terminal 130 via the terminal 110, the payment relay device 120, and the RF antenna 125, and transmits and receives information necessary for payment. The card management server 140 is connected to the terminal 110 by using wireless communication such as LTE, Wi-fi, and exchanges an electronic signature with the payment terminal 140, the payment terminal 140 requested for the payment amount Make a payment.

The beacon 150 transmits an advertisement type signal omnidirectionally, so that the terminal 110 recognizes that the payment relay device 120 exists within a preset range.

Beacon 150 transmits the advertisement type signal omnidirectionally. The beacon 150 transmits an advertisement type signal from the beacon 150 so as to know that a payment relay device 120 capable of connecting a wireless communication session exists within a preset range. The advertisement type signal may include corresponding information so that the receiving terminal can grasp the corresponding content, or the identifier of the beacon 150 so that the terminal knows that the advertisement type signal sent by a specific beacon is a signal for indicating the corresponding information. It may contain only bays. The beacon 150 transmits such an advertisement type signal, thereby allowing the dense 110 to recognize that the payment relay 120 exists nearby and to maximize the scanning speed of the Bluetooth device.

2 is a diagram illustrating a configuration of a terminal according to an embodiment of the present invention.

2, the terminal 110 according to an embodiment of the present invention includes a communication module 210, a control module 220, and a memory unit 230.

The communication module 210 scans the Bluetooth device at predetermined intervals. The communication module 210 scans the Bluetooth device at a much longer interval than the interval at which the Bluetooth devices scan peripheral Bluetooth devices for session connection to minimize scanning. For example, the communication module 210 may scan a Bluetooth device at intervals of several minutes.

The communication module 210 receives an advertisement type signal from the beacon 150 and scans devices existing within a predetermined range at a more frequent interval than a preset interval. When the advertisement type signal is received from the beacon 150, since it means that there is a Bluetooth device (payment relay device) to connect a session within a preset range, the communication module 210 reduces the scanning interval by maximizing the scanning speed. . Thereafter, the communication module 210 receives an identifier of each device for connecting a session for wireless communication, and connects the session for wireless communication with the payment relay device 120.

The communication module 210 transmits the card ID to the payment relay device 120. The communication module 210 may transmit the card ID encrypted using the secret key to the payment relay device 120.

The communication module 210 receives the card validation signal from the payment relay device 120 and transmits the card validation signal to the payment relay device 120. Similarly, the card validation signal and card card validation signal can also be encrypted and transmitted.

The communication module 210 receives the payment start signal from the payment relay device 120 and transmits it to the card management server 140, and receives the electronic signature from the card management server 140 and transmits the signal to the payment relay device 120. . The communication module 210 receives an electronic signature for requesting payment from the payment relay device 120 and transmits it to the card management server 140, and receives an electronic signature indicating that the payment is completed from the card management server 140. The payment is transmitted to the relay device 120. Similarly, each digital signature can be encrypted and sent and received.

The control module 220 controls the communication module 210 to scan the Bluetooth device at predetermined intervals during the initial operation. Subsequently, when an advertisement type signal is received from the beacon, the control module 220 controls the communication module 210 to scan the Bluetooth device at a more frequent interval than the preset interval. In this case, when the identifier of the beacon is included in the advertisement type signal received from the beacon, the control module 220 determines whether the identifier included in the signal is the identifier of the beacon 150. When the advertisement type signal is received from the beacon 150 by checking the identifier, the control module 220 controls the communication module 210 to scan the Bluetooth device at a more frequent interval than the preset interval.

The control module 220 recognizes a specific identifier of the payment relay device 120 among the identifiers of the scanned devices. Since the payment relay device 120 has a specific identifier distinguishable from other devices, the control module 220 recognizes the payment relay device 120 among the identifiers of the scanned devices. The control module 220 controls the communication module 210 to connect the session with the recognized payment relay 120.

The control module 220 controls the communication module 210 to transmit the card ID to the payment relay device 120.

When receiving the card validation signal, the control module 220 generates a signal for authenticating the card validity. The card validation signal is a software verification signal for confirming whether the terminal is using a valid application or a card subscribed to a service. The control module 220 generates a card validity authentication signal including a card ID or application information to verify the validity of the card. The control module 220 controls the communication module 210 to transmit the card validity authentication signal to the payment relay device 120.

The control module 220 controls the communication module 210 to transmit the payment start signal or the electronic signature received from one of the payment relay device 120 or the card management server 140 to the other configuration.

The memory unit 230 stores the identifier of the payment relay device 120. Even if the terminal 110 is not activated for the session connection, the memory unit 230 stores the identifier of the payment relay device 120 so that the terminal can connect the session with the payment relay device 120.

The memory unit 230 stores IDs of previously issued cards. In order for the terminal 110 to prove to the payment relay device 120 or the payment terminal 130 that the card issued by the user can use the payment relay service, the memory unit 230 displays the ID of the previously issued card. Save it.

3 is a diagram illustrating a configuration of a payment relay device according to an embodiment of the present invention.

Referring to FIG. 3, the payment relay device 120 according to an embodiment of the present invention includes a communication module 310, a control module 320, a memory unit 330, and an emulation module 340.

When a session for wireless communication is connected, the communication module 310 receives a card ID from the terminal 110.

The communication module 310 transmits a card validation signal to the terminal 110 and receives a card validation signal from the terminal 110.

The communication module 310 transmits a payment start signal to the terminal 110 and receives an electronic signature from the terminal 110. The electronic signature for requesting payment is transmitted to the terminal 110, and an electronic signature indicating that the payment is completed is received from the terminal 110.

When receiving the card ID from the terminal 110, the control module 320 checks whether the card is a card subscribed to the service. The control module 320 compares the ID information of the card subscribed to the service stored in the memory unit 330 with the card ID received from the terminal 110 and checks whether the corresponding card is a card subscribed to the service. The control module 320 controls the emulation module 340 to operate only when the card to be used by the terminal 110 is a card subscribed to a service.

The control module 320 controls the communication module 310 to transmit the payment start signal or the electronic signature received from one of the payment terminal 130 or the card management server 140 to the other configuration.

The memory unit 330 stores ID information of the card subscribed to the service. The memory unit 330 stores ID information of a card subscribed to the service so that the control module 320 can confirm whether the received card ID is a card subscribed to the service.

The memory unit 330 stores data for physical authentication of the card. The memory unit 330 stores information for authenticating the eligibility of the card as information necessary for physical authentication of the card and information for authenticating that a format corresponding to the data format used by the payment terminal 140 is used. . Herein, the information for authenticating the card and the data format for authenticating the card may be information corresponding to ISO / IEC 14443, an international standard of NFC. The information stored in the memory unit 330 is stored information for performing physical authentication with the payment terminal 130 and is not related to the information of the card to which the terminal 110 is previously issued and used for payment. That is, the memory unit 330 does not store or store the information of the card that the terminal 110 actually wants to use, and arbitrary (card) information is stored so that the terminal 110 can perform physical authentication.

The emulation module 340 is physically connected to the RF antenna 125 and provides the RF antenna 125 with information necessary for physical authentication of the card. The emulation module 340 operates under the control of the control module 320 and provides the RF antenna 125 with information necessary for physical authentication of the card. When the RF antenna 125 receives a signal requesting verification of the card's eligibility from the payment terminal 130, the emulation module 340 authenticates the eligibility of the card stored in the memory unit 330 with the RF antenna 125. Deliver information to As the emulation module 340 operates as described above, the payment terminal 130 may be a card that is physically eligible to perform payment with itself, regardless of whether the card is actually used by the terminal 110. You can recognize it as it exists. Then, when the RF antenna 125 receives a signal requesting verification of the data format used by the payment terminal 130, the emulation module 340 is a payment terminal stored in the memory unit 330 by the RF antenna 125. Information for authenticating that a format corresponding to the data format used by the 140 is used is transmitted. As the emulation module 340 operates in this manner, the payment terminal 130 may recognize that a card having the same data format as its own is present nearby. The emulation module 340 allows the user to perform the physical authentication of the payment terminal 130 and the card, so that the user of the terminal including the card or the app card needs to approach the card or the terminal to the payment terminal 130 for physical authentication. I can eliminate it.

4 is a diagram illustrating a configuration of a payment terminal according to an embodiment of the present invention.

4, the payment terminal 130 according to an embodiment of the present invention includes a communication module 410, a control module 420, and a memory unit 430.

The communication module 410 transmits a signal for physically verifying the card at predetermined intervals to check whether there is a card approaching the payment terminal 130. More specifically, the communication module 410 transmits the qualification verification signal of the card at predetermined intervals. When the qualification authentication signal of the card is received, the communication module 410 transmits a data format verification signal. The communication module 410 receives the data format authentication signal, thereby completing the physical verification of the card.

When the physical verification is completed, the communication module 410 transmits the validation signal of the card and receives the validation certificate signal of the card, thereby completing the software verification of the card.

When all verification of the card is completed, the communication module 410 transmits a payment start signal to the RF antenna 125. The communication module 410 receives the electronic signature from the RF antenna 125. The communication module 810 transmits an electronic signature for requesting payment to the RF antenna 125 and receives an electronic signature for notifying that the payment is completed from the RF antenna 125.

The control module 420 controls the communication module 410 to transmit the qualification verification signal of the card at predetermined intervals. When the qualification signal of the card is received, the control module 420 checks whether the card is eligible. The control module 420 checks the eligibility of the card by using data for checking the eligibility of the card stored in the memory unit 430.

If the card is eligible, the control module 420 controls the communication module 410 to transmit the data format verification signal. When the data format authentication signal is received, the control module 420 checks whether the data format used by the card matches. The control module 420 checks the data format used by the card using the data for confirming the data format stored in the memory unit 430. As such, the control module 420 completes the physical verification of the card.

When the physical verification is completed, the control module 420 controls the communication module 410 to transmit the validation signal of the card. Even if the card is physically suitable, there may be a case where the card or the application cannot use the service provided by the payment relay system. To check this, the control module 420 controls the communication module 410 to transmit the validation signal of the card or application for validating the card or application. When receiving the validity authentication signal of the card or application, the control module 420 uses the data (eg, card ID) for validating the card or application stored in the memory unit 430 to validate the card or application. Check. As such, the control module 420 completes the software verification of the card and completes verification of all cards.

The control module 420 controls the communication module 410 to transmit a payment start signal to initiate a payment. The control module 420 controls the communication module 410 to transmit a payment start signal so that the card management server 1140 may know that payment with the payment terminal 130 needs to be initiated.

When the communication module 410 receives the electronic signature, the control module 420 verifies the electronic signature and generates an electronic signature for requesting payment. The control module 420 generates an electronic signature for requesting payment and controls the communication module 410 to transmit it.

When the communication module 410 receives the electronic signature indicating that the payment is completed, the control module 420 may generate payment details and store them in the memory unit 430. Using the stored payment details, the payment terminal 140 may request an external device to process the cost according to the payment details.

The memory unit 430 stores data for confirming the eligibility of the card, data for confirming the data format, and data for confirming the software (validity of the card or application) of the card.

The memory unit 430 stores information for the digital signature so that the digital signature can be decrypted and generated.

5 is a timing chart illustrating a process of performing physical authentication according to an embodiment of the present invention.

The terminal 110 operates in the first mode (S510). Here, the first mode refers to a mode in which a Bluetooth device (payment relay device) is scanned at predetermined intervals in order to minimize scanning of the Bluetooth device. The terminal 110 operates in the first mode and minimizes power consumption until the advertisement type signal is received from the beacon 150.

Beacon 150 transmits the advertisement type signal (S515). The beacon 150 transmits an advertisement type signal to recognize that the payment relay device 120 exists within a preset range.

After recognizing the presence of the beacon 150, the terminal 110 operates in the second mode (S520). The terminal 110 receives the advertisement type signal from the beacon 150 and recognizes the presence of the beacon 150. After recognizing the presence of the beacon 150, the terminal 110 operates in the second mode. Here, the second mode is a mode in which the scanning speed of the Bluetooth device (payment relay device) is maximized and the Bluetooth device is scanned at a more frequent interval than the first mode.

The terminal 110 recognizes the payment relay device 120 and connects a session for wireless communication (S525).

After the session connection is completed, the terminal 110 transmits a card ID (S530).

The payment relay device 120 checks whether the card of the terminal is a card that can use the service (S535). If the card of the terminal is a card that can use the service, the payment relay device 120 activates the emulation module.

The payment terminal 130 transmits a card eligibility verification signal (S540).

The payment relay device 120 transmits the card eligibility authentication signal to the payment terminal 130 (S545). The payment relay device 120 receives and confirms a card eligibility verification signal using the RF antenna 125. The activated emulation module provides the information necessary for the qualification of the card to the RF antenna 125, so that the payment relay device 120 transmits the RF antenna 125 to the payment terminal 130.

The payment terminal 130 transmits a data format verification signal (S550).

The payment relay device 120 transmits the data format authentication signal to the payment terminal 130 (S555). Similarly, the payment relay device 120 receives and confirms the data format verification signal using the RF antenna 125. The activated emulation module provides information necessary for data format authentication to the RF antenna 125, so that the payment relay device 120 transmits the data format authentication signal to the payment terminal 130.

6 is a flowchart illustrating a method for performing physical authentication by a payment relay device according to an embodiment of the present invention.

The payment relay device 120 receives the card ID from the terminal 110 after completing the session connection (S610).

The payment relay device 120 checks whether the received card is a card that can use the service (S620).

If the received card is a card that can use the service, the payment relay device 120 receives a card eligibility verification signal from the payment terminal (S630).

The payment relay device 120 provides data to the RF antenna 120 to transmit the card eligibility authentication signal to the payment terminal 130 (S640).

The payment relay device 120 receives a data format verification signal from the payment terminal 130 (S650).

The payment relay device 120 provides data to the RF antenna 120 to transmit the data format authentication signal to the payment terminal 130 (S660).

7 is a timing chart illustrating a process of performing a payment according to an embodiment of the present invention. The process of performing the payment shown in FIG. 7 preferably occurs after physical authentication of the card shown in FIG. 5 is performed.

The payment terminal 130 transmits the card validation signal to the terminal 110 through the RF antenna 120 and the relay device 120 (S710).

The terminal 110 transmits the card validity authentication signal to the payment terminal 130 via the relay device 120 and the RF antenna 120 (S720).

The payment terminal 130 transmits a payment start signal to the card management server 140 via the RF antenna 120, the relay device 120, and the terminal 110 (S730).

The card management server 140 transmits the electronic signature to the payment terminal 130 via the terminal 110, the relay device 120, and the RF antenna 120 (S740).

The payment terminal 130 transmits an electronic signature for requesting payment to the card management server 140 via the RF antenna 120, the relay device 120, and the terminal 110 (S750).

The card management server 140 proceeds to payment (S760).

The card management server 140 transmits an electronic signature indicating that payment is completed to the payment terminal 130 via the terminal 110, the relay device 120, and the RF antenna 120 (S770).

Accordingly, in order to perform the payment of the terminal 110, since payment is performed without having to undergo physical authentication with the payment terminal 130 separately, the payment can be started even if the user does not move the terminal near the payment terminal. Even if the user does not execute the terminal and the application, payment between the payment terminal and the card management server may be performed.

8 is a flowchart illustrating a method of performing a payment by a payment relay device according to an embodiment of the present invention.

The payment relay device 120 receives the card validation signal from the payment terminal 130 and transmits it to the terminal 110 (S810).

The payment relay device 120 receives the card validity authentication signal from the terminal 110 and transmits it to the payment terminal 130 (S820).

The payment relay device 120 receives the payment start signal from the payment terminal 130 and transmits it to the terminal 110 (S830).

The payment relay device 120 receives the electronic signature from the terminal 110 and transmits it to the payment terminal 130 (S840).

The payment relay device 120 receives the electronic signature for requesting payment from the payment terminal 130 and transmits it to the terminal 110 (S850).

The payment relay device 120 receives the electronic signature indicating that the payment is completed from the terminal 110 and transmits it to the payment terminal 130 (S850).

In FIGS. 5 to 8, the processes are sequentially executed, but this is merely illustrative of the technical idea of the exemplary embodiment of the present invention. In other words, one of ordinary skill in the art to which an embodiment of the present invention belongs may execute the process described in FIGS. 5 to 8 by changing the order of one or more of each process without departing from the essential characteristics of the embodiment of the present invention. Since various modifications and variations may be applied to the process in parallel, FIGS. 4 to 5 are not limited to the time series order.

Meanwhile, the processes illustrated in FIGS. 5 to 8 may be embodied as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data that can be read by a computer system is stored. That is, the computer-readable recording medium may be a magnetic storage medium (for example, a ROM, a floppy disk, a hard disk, etc.), an optical reading medium (for example, a CD-ROM, DVD, etc.) and a carrier wave (for example, the Internet Storage medium). The computer readable recording medium can also be distributed over network coupled computer systems so that the computer readable code is stored and executed in a distributed fashion.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which the present embodiment belongs may make various modifications and changes without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the present invention, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

100: payment relay system
110: terminal
120: payment relay
125: RF antenna
130: payment terminal
140: card management server
150: beacon
210, 310, 410: communication module
220, 320, 420: control module
230, 330, 430: memory section
340: emulation module

Claims (7)

In the system for relaying payment,
Regardless of the card information that the terminal intends to use, the terminal performs the physical verification of the payment terminal and the card for payment using the pre-stored data for physical verification of the card, thereby performing payment with the payment terminal near the payment terminal. A payment relay device for recognizing a payment terminal as if a card that has undergone physical verification can exist; And
In order to connect the payment relay device and the session, the terminal searching for the payment relay device at a predetermined interval recognizes that the payment relay device exists within a preset range, and the payment relay device at a more frequent interval than the preset interval. Sending an advertisement signal to search for, including a beacon to save the power consumed by the terminal to search the payment relay device,
In order to initiate a payment between the payment terminal and the card, the card must undergo physical verification,
The data for physical authentication of the card includes information for authenticating the eligibility of the card and information for authenticating that a format corresponding to the data format used by the payment terminal is used.
The advertisement signal may include information indicating that a payment relay device capable of connecting a wireless communication session exists within a preset range from the beacon, or includes only an identifier of the beacon. delete The method of claim 1,
The payment relay device,
The payment relay system, characterized in that to perform the physical verification of the payment terminal and the card for payment only when the terminal meets a predetermined condition. The method of claim 3,
The terminal,
After connecting the session with the payment relay device, the payment relay system, characterized in that for transmitting data that proves that the terminal meets the predetermined conditions. In the payment relay system including a beacon and the payment relay device, a method for relaying a payment so that the payment terminal and the payment can be started with a card to be used by the terminal,
In order to connect the payment relay device and the session, the terminal searching for the payment relay device at a predetermined interval recognizes that the payment relay device exists within a preset range, and the payment relay device is used at a more frequent interval than the preset interval. A transmission process performed by a beacon to transmit an advertisement signal to search to save the power consumed by the terminal to search for the payment relay device;
A confirmation process performed by a payment relay device for confirming whether the terminal meets a predetermined condition after a session for wireless communication with the terminal is connected; And
When the terminal meets a predetermined condition, regardless of the card information to be used by the terminal by performing the physical verification of the payment terminal and the card for payment using the pre-stored data for physical verification of the card, And a verification process performed by the payment relay device, which recognizes the payment terminal as if the card which has undergone physical verification to perform the payment with the payment terminal exists near the payment terminal.
In order to initiate a payment between the payment terminal and the card, the card must undergo physical verification,
The data for physical authentication of the card includes information for authenticating the eligibility of the card and information for authenticating that a format corresponding to the data format used by the payment terminal is used.
The advertisement signal may include information indicating that a payment relay device capable of connecting a wireless communication session exists within a preset range from the beacon, or includes only an identifier of the beacon. delete The method of claim 5,
The terminal,
After connecting the session with the payment relay device, the payment relay method, characterized in that for transmitting data that proves that the terminal meets the predetermined conditions.

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