KR20200045312A - Method and System for Enhancing Compatibility with Payment Terminal - Google Patents

Abstract

Disclosed are a payment method and system for improving compatibility with a payment terminal. According to an aspect of an embodiment of the present invention, provided are a payment method and system for facilitating payment with payment terminals using different communication methods. A method for performing payment with a plurality of payment terminals each using a different communication method with a card issued by the terminal comprises: a first updating step of transmitting an electronic signature for a payment request received from a first payment terminal to a card management server to update a payment transaction of a previously issued card stored in the card management server after payment is completed; a first processing step of receiving a payment start signal to the previously issued card generated by a second payment terminal and transmitting the received payment start signal to the card management server; a second processing step of receiving the electronic signature together with the updated payment transaction from the card management server and transmitting the updated payment transaction and electronic signature to the second payment terminal; and a third processing step of receiving the electronic signature for the payment request from the second payment terminal and transmitting the electronic signature for the received payment request to the card management server.

Description

Method and System for Enhancing Compatibility with Payment Terminal}

This embodiment relates to a payment method and system that improves compatibility with a payment terminal.

The contents described in this section merely provide background information for this embodiment, and do not constitute a prior art.

The first-generation card was used in a range of balances in a deposit account using a physical medium of a predetermined shape, or the amount used after being used first was billed later. Each card has a structure where a card ID exists and is charged, settled, and settled based on the card ID. In order to charge or pay, it is done by exchanging information between the card and the payment terminal.

Information exchange is accomplished 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 can charge the card's amount without paying the money, or manipulate the amount in the card. Effect. In the case of a physical card, the card's unique key is embedded in the card along with the card ID when the card is issued.

Since the physical first generation card is separately present as a physical medium, there is inconvenience in storage or management. In addition, since anyone can use it, there is a problem that a third-party card cannot be prevented in case of loss.

In order to solve this problem at a time when the use of smartphones is common, app card applications that can be downloaded and used in smartphones are being 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 payments at an online / offline merchant without carrying a real credit card.

However, in the conventional method, the user must activate the app card application for payment after running the smartphone for payment, and payment can be performed only by the user taking the smartphone near the payment terminal. There is a discomfort being performed. Accordingly, when the user is carrying a heavy load or there are restrictions on both hands, a payment may be disturbed.

In addition, in the conventional payment method, transaction transactions that occur during payment are stored in a secure area such as a USIM in a smartphone for payment. However, since access to such a security area was restricted, payment could be performed only by using one communication method with a conventional smartphone. For example, in order to perform payment with a payment terminal using NFC, a smartphone for proceeding with payment must use only NFC, and payment can be performed using a communication method other than NFC (for example, Bluetooth). There was not. This is not suitable for recent payment trends in which various communication methods are used in payment, which causes a lot of inconvenience.

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

The present embodiment has an object to provide a payment method and system that provides necessary data regarding physical verification so that the payment terminal can start payment.

In addition, the present embodiment has an object to provide a payment method and system that can smoothly perform payment with payment terminals using different communication methods.

According to an aspect of the present embodiment, in a method in which a terminal performs payment with a plurality of payment terminals using different communication methods with a previously issued card, the terminal receives from the first payment terminal using the first communication method. A first update process for transmitting a digital signature for a payment request to a card management server, so that payment with a first payment terminal is completed and a transaction transaction of the previously issued card stored in the card management server can be updated; A first process and a first update of receiving a payment start signal to a previously issued card generated by a second payment terminal using a second communication method and transmitting the received payment start signal to the card management server The electronic signature is received from the card management server together with the transaction transaction updated in the process, and updated in the first update process using the second communication method. Receives an electronic signature for a payment request from the second payment terminal by using a second process of transmitting a transaction transaction and an electronic signature to the second payment terminal and the second communication method, and the electronic for the received payment request It provides a method for performing payment, characterized in that it comprises a third process of transmitting a signature to the card management server.

According to an aspect of the present embodiment, the transaction transaction includes information on the means in which the payment terminal is disposed, information on the space in which the payment terminal is disposed, information on the type of means in which the payment terminal is disposed, and the payment terminal. It characterized in that it includes some or all of the information, information about the type of transaction with the payment terminal, and information about the time when the transaction with the payment terminal is completed.

According to an aspect of this embodiment, the transaction transaction is characterized in that it is stored only in the card management server.

According to an aspect of the present embodiment, when the card management server receives the electronic signature for the payment request, it performs payment according to the payment request and updates stored transaction transactions by reflecting payment information. .

According to an aspect of the present embodiment, the first communication method and the second communication method are characterized by being implemented in different communication methods.

According to an aspect of the present embodiment, any one of the first communication method and the second communication method is implemented by short-range wireless communication.

According to an aspect of the present embodiment, in a method in which a terminal performs payment with a plurality of payment terminals using different communication methods with a previously issued card, the terminal receives from the first payment terminal using the first communication method. A first update process for transmitting a digital signature for a payment request to a card management server, so that payment with a first payment terminal is completed and a transaction transaction of the previously issued card stored in the card management server can be updated; A first process and a first update of receiving a payment start signal to a previously issued card generated by a second payment terminal using a second communication method and transmitting the received payment start signal to the card management server The electronic signature is received from the card management server together with the transaction transaction updated in the process, and updated in the first update process using the second communication method. Receives an electronic signature for a payment request from the second payment terminal by using a second process of transmitting a transaction transaction and an electronic signature to the second payment terminal and the second communication method, and the electronic for the received payment request It provides a computer-readable recording medium recording a program for executing a payment method in a computer, characterized in that it comprises a third process of transmitting a signature to the card management server.

According to an aspect of the present embodiment, in a terminal that performs payment with a plurality of payment terminals using different communication methods with a previously issued card, a signal for payment with the first payment terminal using the first communication method Using a second communication unit for transmitting and receiving signals for payment with the second payment terminal and the card management server using the first communication unit and the second communication method for transmitting and receiving, and using at least one of the first communication unit and the second communication unit, the By sending an electronic signature for a payment request received from one of the first payment terminal and the second payment terminal to the card management server, payment with one of the first payment terminal and the second payment terminal is completed. Control so that the transaction transaction of the previously issued card stored in the card management server can be updated, and at least one of the first communication unit and the second communication unit Utilized, provides a terminal comprising a first terminal and a billing control section for controlling to transmit and receive signals for the performed payment to the second payment terminal and one of the payment.

According to an aspect of the present embodiment, the transaction transaction includes information on the means in which the payment terminal is disposed, information on the space in which the payment terminal is disposed, information on the type of means in which the payment terminal is disposed, and the payment terminal. It characterized in that it includes some or all of the information, information about the type of transaction with the payment terminal, and information about the time when the transaction with the payment terminal is completed.

According to an aspect of this embodiment, the transaction transaction is characterized in that it is stored only in the card management server.

According to an aspect of the present embodiment, the first communication unit and the second communication unit transmit and receive signals with each payment terminal using different communication methods.

According to an aspect of the present embodiment, any one of the first communication unit and the second communication unit is characterized in that it transmits and receives signals to and from each payment terminal using near field communication (NFC).

As described above, according to one aspect of the present embodiment, the payment relay device provides necessary data regarding physical verification so that the payment terminal can start payment, so that the payment can be started even if the user does not move the terminal near the payment terminal. It has the advantage of allowing.

In addition, according to an aspect of the present embodiment, there is an advantage of having compatibility with each payment terminal using different communication methods, so that payment with each payment terminal is smoothly performed.

1 is a view showing the configuration of a payment system according to an embodiment of the present invention.
2 is a diagram showing the configuration of a terminal according to an embodiment of the present invention.
3 is a view showing the configuration of a payment relay device according to an embodiment of the present invention.
4 is a view showing the configuration of a payment terminal according to an embodiment of the present invention.
5 is a view showing the configuration of a card management server according to an embodiment of the present invention.
6 is a timing chart showing a process of authenticating a card with a first payment terminal according to an embodiment of the present invention.
7 is a flowchart illustrating a method for a payment relay device to perform authentication of a first payment terminal and a card according to an embodiment of the present invention.
8 is a timing chart showing a process of authenticating a card with a second payment terminal according to an embodiment of the present invention.
9 is a timing chart illustrating a process in which a terminal performs payment with a first payment terminal according to an embodiment of the present invention.
10 is a timing chart illustrating a process in which a terminal performs payment with a second payment terminal according to an embodiment of the present invention.
11 is a flowchart illustrating a method for a terminal to perform payment with first and second payment terminals according to an embodiment of the present invention.

The present invention can be applied to various changes and can have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing each drawing, similar reference numerals are used for similar components.

Terms such as first, second, A, and B can 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 other components. For example, the first component may be referred to as a second component without departing from the scope of the present invention, and similarly, the second component may be referred to as a first component. The term and / or includes a combination of a plurality of related described items or any one of a plurality of related described items.

When an element is said to be "connected" or "connected" to another component, it is understood that other components may be directly connected to or connected to the other component, but other components may exist in the middle. It 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 no other component exists in the middle.

Terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. It should be understood that terms such as “include” or “have” in the present application do not preclude the existence or addition possibility of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification. .

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by a person skilled in the art to which the present invention pertains.

Terms such as those defined in a commonly used dictionary should be interpreted as having meanings consistent with meanings in the context of related technologies, and should not be interpreted as ideal or excessively formal meanings unless explicitly defined in the present application. Does not.

In addition, each configuration, process, process or method included in each embodiment of the present invention may be shared within a technically inconsistent range.

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

Referring to FIG. 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, 135 and a card management server 140.

The terminal 110 is a device that intends to perform payment with the payment terminals 130 and 135 using a previously issued card.

The terminal 110 connects the payment relay device 120 with a session for wireless communication. The terminal 110 scans an existing device for connection of a session, and recognizes a specific identifier of the payment relay device 120 among the scanned devices to connect the payment relay device 120 with the session. Here, in the wireless communication, even if there is no separate input from the user of the terminal 110, a session may be connected between the terminal 110 and the payment relay device 120, even if the terminal 110 does not access the payment relay device 120. Any type of session connection can be used, for example, Bluetooth. When the wireless communication is implemented by Bluetooth, the terminal 110 and the payment relay device 120 may be paired as a session is connected. Hereinafter, for convenience of description, the wireless communication will be described as being limited to Bluetooth, but any wireless communication having the above-described properties may be replaced.

After the terminal 110 connects with the payment relay device 120 for a session, it transmits and receives necessary data. The terminal 110 needs to perform authentication in order to use the service provided by the payment relay system. Accordingly, 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, the terminal 110 displays the ID of the card previously issued to the payment relay device 120. send.

The terminal 110 receives a signal for validating the card from the payment relay device 120, and transmits a signal 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 first payment terminal 130 through the payment relay device 120 rather than the first payment terminal 130. As described above, the terminal 110 does not need to be activated because the session is connected and communicated with the payment relay device 120 without separate input. In addition, since the terminal 110 receives the signal to be checked by the first payment terminal 130 from the payment relay device 120 rather than the payment terminal 130 through wireless communication, the user of the terminal 110 may receive the terminal ( Even if the 110 is not brought to the vicinity of the first payment terminal 130, the transmission and reception of signals may be made.

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

Meanwhile, the terminal 110 performs payment with the second payment terminal 135 using short-range wireless communication. In performing the payment with the second payment terminal 135, the terminal 110 allows payment to be performed using a conventional payment method using direct short-range wireless communication without using a separate payment relay device. The terminal 110 is a conventional communication method in which payment can be performed by physically accessing a payment terminal such as short-range wireless communication, for example, NFC. 135), so that the payment with the second payment terminal 135 in the card management server 140 can proceed.

In this case, the terminal 110 may complete payment with any one of the first payment terminal 130 and the second payment terminal 135, and then proceed with payment with the other payment terminal. However, the present invention is not limited thereto, and in the case where payment occurs multiple times in a single use of a service such as a bus or a subway, payment may be performed with both the first payment terminal 130 and the second payment terminal 135. exist. For example, in the case of a subway, a payment relay device 120 is installed in a specific history, so that payment may be made with the first payment terminal 130 even if the terminal 110 is not activated or accessed nearby. In the history, since there is no installation of the payment relay device 120, payment may be made by the second payment terminal 135 and the conventional payment method (a method of performing payment by accessing the terminal as a payment terminal). In this situation, the terminal 110 performs payment with the first payment terminal 130 through the payment relay device 120 when boarding, and performs direct payment with the second payment terminal 135 when getting off. Can exist. At this time, the terminal 110 performs payment with any one payment terminal, and then performs payment with another payment terminal without difficulty. Transaction transactions including information necessary for the progress of payment and ongoing payment information are stored in the card management server 140, so that the payment and transaction transactions are updated in the card management server 140. For this reason, the terminal 110 does not have any restrictions on the progress of payment with each payment terminal and access to a transaction transaction even if each payment terminal uses a different communication method, so that payment is continuously made with any payment terminal. You can proceed. This will be described in detail with reference to FIGS. 2 and 6 to 11.

The payment relay device 120 emulates the card so that the physical authentication of the card is performed so that payment can be started, and relays the 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 the specific identifier and connects the payment relay device 120 to the session. As the above-described example, when the wireless communication is implemented by Bluetooth, the payment relay device 120 can be paired with one terminal and simultaneously transmit and receive signals or data with a plurality of terminals.

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

When the card is a card to which the corresponding service is subscribed, the payment relay device 120 controls the RF antenna 125 to perform physical verification with the first payment terminal 130. In order to initiate payment between the first payment terminal 130 and the card, the card needs to be physically verified in close proximity to the first payment terminal 130, and then only through software verification. The payment relay device 120 controls the RF antenna 125 to perform physical verification with the first payment terminal 130 to replace the proximity of the terminal 110 including a card or an app card. The payment relay device 120 is physically connected to the RF antenna 125, checks the signal or data received by the RF antenna 125, and transmits the signal or data to be transmitted by the RF antenna 125 to the RF antenna 125. to provide. That is, when the RF antenna 125 receives a signal requesting physical verification of the card from the first payment terminal 130, the payment relay device 120 allows the RF antenna 125 to perform physical authentication of the card. In order to transmit the signal to the first payment terminal 130, the corresponding signal is provided to the RF antenna 125. The payment relay device 120 recognizes the payment terminal 130 as if there is a physically verified card capable of performing payment with the first payment terminal 130 near the first payment terminal 130. The payment relay device 120 does not perform verification on behalf of the terminal by using the information on the card that the actual terminal 110 wants to use (payment, etc.), but rather on the card that the terminal 110 uses (payment, etc.) For the physical verification regardless of the information about, the physical verification of the card to be used by the terminal 110 is replaced by using the data stored in the payment relay device 120. That is, when the card is a card to which the corresponding service is subscribed, the payment relay device 120 performs physical verification of the card using pre-stored data regardless of the card information used by the actual terminal. As such, the first payment terminal 130 completes physical verification to perform payment.

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

The RF antenna 125 is physically connected to the payment relay device 120 to transmit signals or data provided from the payment relay device 120 to the first payment terminal 130, or to receive it from the first payment terminal 130 A signal or data is transmitted to the payment relay device 120. The RF antenna 125 transmits and receives signals or data using short-range communication, such as NFC communication, with the first payment terminal 130. The RF antenna 125 communicates with the first payment terminal 130 using short-range communication. Since the RF antenna 125 physically connected to the payment relay device 120 communicates with the first payment terminal 130, the payment relay device 120 provides a signal or data to be transmitted using the RF antenna. 1 can be transmitted to the payment terminal 130.

Payment terminal (130, 135) is a device that verifies the access card, and performs payment with the verified card.

The payment terminals 130 and 135 transmit signals for performing physical and software verification of the card at predetermined intervals, either directionally or undirectly. The first payment terminal 130 performs physical and software verification of the card with the payment relay device 120 or the terminal 110 using communication with the RF antenna 125. The second payment terminal 135 communicates directly with the terminal 110 to perform (physical and software) verification of the card.

When verification is completed, the payment terminals 130 and 135 communicate with the terminal 110 through the RF antenna 125 or directly communicate with the terminal 110, and finally perform payment by communicating with the card management server 140 do. The payment terminal 130 receives a transaction transaction from the card management server 140 to confirm the payment amount, and requests payment for the payment amount by exchanging an electronic signature with the card management server 140.

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 using wireless communication such as LTE, Wi-fi, and the like, and exchanges an electronic signature with the payment terminal 140, for the payment amount requested by the payment terminal 140. Perform payment.

When performing a transaction using a card issued by the terminal 110, the card management server 140 stores a transaction transaction for the advanced transaction. Transaction Transaction refers to a sequential record of information related to a transaction (payment) performed by the terminal 110, information about the means in which the payment terminal is placed, information about the space in which the payment terminal is placed, and the payment terminal. It includes some or all of the information on the type of the arranged means, information on the payment terminal, information on the type of transaction with the payment terminal, and information on the time when the transaction with the payment terminal has been completed. The information on the means in which the payment terminal is arranged is information for confirming in which means the payment terminal is arranged for payment, such as a transportation means, and includes, for example, a bus, subway or taxi. Information on the space where the payment terminal is arranged is information for confirming to which place the payment terminal is placed in the corresponding means, for example, if the means is a subway, for confirming which history the payment terminal is placed in Information. The information on the type of means in which the payment terminal is disposed is information indicating what kind of means the payment terminal is arranged in when there are multiple types of the means. For example, when the corresponding means is a subway, information about information on the type of means in which the payment terminal is arranged may indicate to which line the payment terminal is placed. The payment terminal information is identification information capable of identifying each payment terminal. For example, in the case of a payment terminal disposed in a subway station, it may be a gate number of each gate. The information on the type of transaction with the payment terminal is information on the type in which the terminal has performed payment with the payment terminal using a previously issued card. For example, in the case of a payment terminal disposed in a subway or bus, payment with the payment terminal Indicates whether it is for riding, getting off, or transferring. The information on the time when the transaction with the payment terminal is completed indicates the time when the payment has been completed by the card management server 140. In the transaction, the transaction includes information about the time when the transaction is completed, so that when the terminal 110 intends to proceed with the payment terminal disposed in the transportation mode, the payment terminal determines whether the terminal can get on, off or transfer. , Based on this, you can calculate the payment amount. This transaction transaction can be stored only in the card management server 140, not the terminal 110. Since the transaction transaction is stored only in the card management server 140, the terminal 110 can access the transaction transaction without difficulty even if it wants to perform payment and payment terminal using any kind of communication method, and various communication with the payment terminal By using the method, payment can be made smoothly. That is, the transaction transaction is stored separately from the terminal 110, thereby ensuring compatibility with payment with various payment terminals.

In the conventional payment system, payment was performed at the terminal, and the transaction transaction was also updated at the terminal, which has a security area such as SIM (USIM) in the terminal, so that information and transaction transactions required for the transaction are provided in the security area. It was possible because it was stored. However, in the conventional transaction system, in order to maintain security, only a communication method using a specific communication method can access the security area in the terminal, and the remaining communication methods cannot access the security area in the terminal. For this reason, payment is determined according to the communication method, and if the communication method with the payment terminal is changed while providing one service, there is a problem that payment is impossible. However, in the payment system according to an embodiment of the present invention, since the transaction transaction is updated and the payment is performed by the card management server, there is no restriction in access for the payment and the transaction transaction update, so that the terminal does not have any communication method. Even if the payment is continuously performed with the payment terminal used, there are no restrictions.

When the payment request for the payment amount of the payment terminal (130, 135) is received from the terminal 110, the card management server 140 proceeds with the requested payment and updates the transaction transaction. The card management server 140 proceeds with payment and immediately updates the transaction transaction, so that not only when one payment terminal and payment are completed, but also continuously with a plurality of payment terminals (different in communication method) during one service. Even if payment is in progress, make sure that payment can proceed without difficulty. This will be described in detail with reference to FIG. 5.

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

Referring to FIG. 2, the terminal 110 according to an embodiment of the present invention includes a first communication module 210, a second communication module 215, a control module 220 and a memory unit 230.

The first communication module 210 transmits and receives information to and from the payment relay device 120 or the card management server 140 at a long distance using a communication method other than short-range wireless communication. The first communication module 210 transmits and receives information to and from the payment relay device 120 or the card management server 140 using a communication method such as Bluetooth or Wi-Fi.

The first communication module 210 scans devices existing within a certain range, and receives an identifier of each device for a session connection for wireless communication. Thereafter, the first communication module 210 connects the payment relay device 120 with a session for wireless communication.

The first communication module 210 transmits the card ID to the payment relay device 120.

The first communication module 210 receives the validation signal of the card from the payment relay device 120, and transmits the validation signal of the card to the payment relay device 120.

The first communication module 210 receives an electronic signature including a transaction transaction or an electronic signature indicating that payment has been completed from the card management server 140 to transmit the payment to the payment relay device 120. Alternatively, the first communication module 210 receives the payment initiation signal or the electronic signature for payment request from the second payment terminal received from the payment relay device 120 or the second communication module 215. 140).

The second communication module 215 connects the session with the second payment terminal 135 using short-range wireless communication. Unlike the first communication module 210, since the second communication module 215 uses short-range wireless communication, it directly connects the session with the second payment terminal 135 rather than the payment relay device 120.

The second communication module 215 transmits and receives information regarding the authentication of the card to and from the second payment terminal 135 before performing payment using the previously issued card. The second communication module 215 receives a software verification request such as validity of the card, as well as a physical verification request such as eligibility and data format from the second payment terminal 135, and receives a signal for authenticating the second payment terminal 135 Transfer to.

The second communication module 215 receives a payment start signal and an electronic signature for a payment request from the second payment terminal 135.

The control module 220 recognizes a specific identifier of the payment relay device 120 among the identifiers of each scanned device. 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 each scanned device. The control module 220 controls the communication module 210 to connect the recognized payment relay device 120 to the session.

When the payment relay device and the session are connected, the control module 220 controls the first communication module 210 to transmit the card ID to the payment relay device 120.

When receiving the card validity verification signal, the control module 220 generates a signal for authenticating the card validity. The validity verification signal of the card is a software verification signal for confirming whether the terminal is using a valid application or a card subscribed to the service. The control module 220 uses the information stored in the memory unit 230 to generate 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 first communication module 210 to transmit the card validity authentication signal to the payment relay device 120.

Similarly, when the second communication module 215 receives the verification signal of the card from the second payment terminal 135, the control module 220 is a signal for authenticating the card using the information stored in the memory unit 230 Produces The control module 220 controls the second communication module 215 to transmit a signal for authenticating the card to the second payment terminal 135.

The control module 220 communicates the communication module 210 to deliver the payment start signal, transaction transaction, or electronic signature received from the payment relay device 120 or the second payment terminal or the card management server 140 in one other configuration. Control.

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 payment relay device 120 can connect to the session.

The memory unit 230 stores information necessary for authentication of the card. The terminal 110 or the payment terminal device 120 or the payment terminal (whether it is physically eligible, has an appropriate data format, is a card that can use a payment relay service or is a software valid card) 130, 135), the memory unit 230 stores information necessary for physical and software authentication of the card including the ID of the previously issued card.

3 is a view showing the 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 the card ID from the terminal 110.

The communication module 310 transmits a validity signal of the card to the terminal 110 and receives a validity signal of the card 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 payment is completed is received from the terminal 110.

When the card ID is received 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 the service.

The control module 320 controls the communication module 310 to transfer the payment start signal or electronic signature received from one of the first 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. In order for the control module 320 to check whether the received card ID is a card subscribed to the service, the memory unit 330 stores ID information of the card subscribed to the service.

The memory unit 330 stores data for physical authentication of the card. The memory unit 330 stores information necessary for physical authentication of the card, information for authenticating the eligibility of the card, and information for authenticating that the format corresponding to the data format used by the payment terminal 140 is used. . Here, the information for authenticating the card's eligibility and the information for authenticating the data format may be information conforming to ISO / IEC 14443, an international standard of NFC. The information stored in the memory unit 330 is information stored to perform physical authentication with the first payment terminal 130, and is irrelevant to the information of the card that the terminal 110 has previously issued for payment and wants to use. 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 any (card) information that allows the terminal 110 to perform physical authentication is stored.

The emulation module 340 is physically connected to the RF antenna 125 and provides information necessary for physical authentication of the card with the RF antenna 125. The emulation module 340 operates under the control of the control module 320, and provides information necessary for physical authentication of the card with the RF antenna 125. When the RF antenna 125 receives a signal requesting verification of the card's eligibility from the first payment terminal 130, the emulation module 340 is the RF antenna 125 and the eligibility of the card stored in the memory unit 330 It transmits information for authenticating. By operating the emulation module 340 in this way, the first payment terminal 130 is a physically eligible card capable of performing payment with itself, regardless of whether the actual terminal 110 is a card to be used. It can be perceived as being nearby. Thereafter, when the RF antenna 125 receives a signal requesting verification of a data format used from the first payment terminal 130, the emulation module 340 is stored in the memory unit 330 as the RF antenna 125. Information for authenticating that a format corresponding to the data format used by the first payment terminal 130 is used is transmitted. As the emulation module 340 operates in this way, the first payment terminal 130 may recognize that a card having the same data format as itself exists nearby. The emulation module 340 allows the user of the terminal including the card or the app card to access the card or terminal to the first payment terminal 130 for physical authentication by allowing the payment terminal 130 and the card to be physically authenticated. It can relieve discomfort.

4 is a view showing the configuration of a payment terminal according to an embodiment of the present invention.

Referring to FIG. 4, payment terminals 130 and 135 according to an embodiment of the present invention include 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 in order to check whether there is a card accessing the payment terminal 130. More specifically, the communication module 410 transmits a qualification 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 allows the physical verification of the card to be completed by receiving the data format authentication signal.

When the physical verification is completed, the communication module 410 transmits the validity verification signal of the card and receives the validity verification 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 or the terminal 110. The communication module 410 receives an electronic signature from the RF antenna 125 or the terminal 110 together with a transaction transaction. The communication module 810 transmits an electronic signature for requesting payment to the RF antenna 125 or the terminal 110, and receives an electronic signature for notifying that payment is completed from the RF antenna 125 or the terminal 110. .

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

When the card is eligible, the control module 420 controls the communication module 410 to transmit a 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 by using the data for checking the data format stored in the memory unit 430. As such, the control module 420 completes physical verification of the card.

When the physical verification is completed, the control module 420 controls the communication module 410 to transmit a validity verification signal of the card. Even if the card is physically suitable, there may be a case in which the service provided by the payment relay system is a card or an application that cannot be used. To confirm this, the control module 420 controls the communication module 410 to transmit a validation signal of the card or application for verifying the validity of the card or application. When receiving a validity authentication signal of a card or application, the control module 420 uses the data (for example, a card ID) for checking the validity of the card or application stored in the memory unit 430 to validate the card or application. To confirm. 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 start payment. The control module 420 controls the communication module 410 to transmit a payment start signal so that the card management server 140 knows that payment with the payment terminals 130 and 135 itself needs to be started.

When the communication module 410 receives an electronic signature together with a transaction transaction, the control module 420 verifies the electronic signature and generates an electronic signature for requesting payment. At this time, the control module 420 checks the transaction transaction, calculates a payment amount, and generates an electronic signature to request it. The control module 420 controls the communication module 410 to generate an electronic signature for requesting payment and transmit it.

When the communication module 410 receives an electronic signature indicating that payment has been 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 the cost processing according to the payment details to the external device.

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

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

5 is a view showing the configuration of a card management server according to an embodiment of the present invention.

5, the card management server 140 according to an embodiment of the present invention includes a communication module 510, a control module 520, a memory unit 530 and a signature value management module 540.

The communication module 510 receives a payment start signal to the authenticated card from the terminal 110. The communication module 510 transmits the electronic signature to the terminal 110 together with the transaction transaction of the corresponding card.

The communication module 510 receives the electronic signatures of the payment terminals 130 and 135 for requesting payment from the terminal 110 and transmits an electronic signature indicating that payment has been completed to the terminal 110.

When receiving the payment start signal to the authenticated card, the control module 520 controls the signature value management module 540 to generate an electronic signature for confirming the validity of the terminal. The control module 520 generates a digital signature by controlling the signature value management module 540 to check the validity of the terminal 110 and the like to the payment terminal requesting the start of payment. The control module 520 controls the communication module 510 to transmit the generated electronic signature to the terminal 110.

At this time, the control module 520 controls the communication module 510 to check the transaction transaction of the card, which is stored in the memory unit 530, and is issued and authenticated by the terminal, and transmit it together with the electronic signature. The control module 520 controls the communication module 510 to transmit the transaction transaction together with the electronic signature so that the payment terminal can receive the transaction transaction and check it to calculate the transaction amount.

When receiving an electronic signature for requesting payment, the control module 520 proceeds with payment and updates the transaction transaction. The control module 520 checks the received electronic signature and proceeds with payment for the requested payment amount. In addition, the control module 520 proceeds with the payment, and updates the transaction transaction so that the payment information is reflected in the transaction transaction for the corresponding card. The control module 520 updates the transaction transaction, and when payment is completed, another payment terminal proceeds with another payment terminal. Make it possible. For example, when the terminal 110 performs payment with the first payment terminal 130 through the payment relay device 120 when boarding the subway, the control module 520 proceeds with payment and reflects the transaction transaction. Update. Accordingly, even when the terminal 110 gets off the subway, even if the payment proceeds with the second payment terminal 135 using a different communication method than the first payment terminal 130, the control module 520 uses a transaction transaction. The second payment terminal confirms the transaction transaction so that the payment can proceed.

The memory unit 530 allows the electronic signature to be identified and generated, and stores information to enable payment. Accordingly, the signature value management module 540 allows the electronic signature to be generated or the received electronic signature to be verified, and the control module 520 enables payment.

The memory unit 530 stores a transaction transaction for a card previously issued to the terminal 110. The payment is made in the card management server 140, not the terminal 110, and the memory unit 530 allows the terminal 110 to access transaction transactions smoothly to perform payment with various payment terminals using various communication methods. ) Stores transaction transactions.

The signature value management module 540 checks the electronic signature of the payment terminal received from the terminal 110 or generates an electronic signature to confirm the validity of the terminal or an electronic signature to indicate that payment has been completed. The signature value management module 540 uses the information stored in the memory unit 530 to confirm the above-mentioned electronic signature or to generate the above-described electronic signature.

6 is a timing chart showing a process of authenticating a card with a first payment terminal according to an embodiment of the present invention.

The terminal 110 recognizes the payment relay device 120 and connects a session for wireless communication (S610).

After the session connection is completed, the terminal 110 transmits the card ID (S615).

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

The first payment terminal 130 transmits a card qualification verification signal (S625).

The payment relay device 120 transmits a card qualification authentication signal to the first payment terminal 130 (S630).

The first payment terminal 130 transmits a data format verification signal (S635).

The payment relay device 120 transmits a data format authentication signal to the first payment terminal 130 (S640).

The first payment terminal 130 transmits the validation signal of the card to the terminal 110 via the payment relay device 120 (S645).

The terminal 110 transmits the validity authentication signal of the card to the first payment terminal 130 through the payment relay device 120 (S650).

7 is a flowchart illustrating a method for a payment relay device to perform authentication of a first payment terminal and a card according to an embodiment of the present invention.

The payment relay device 120 receives the card ID from the terminal 110 after the session connection is completed (S710).

The payment relay device 120 checks whether the received card is a card that can use the service (S720).

When the received card is a card that can use the service, the payment relay device 120 receives a card qualification verification signal from the first payment terminal 130 (S730).

The payment relay device 120 provides data to the RF antenna 125 to transmit the card qualification authentication signal to the first payment terminal 130 (S740).

The payment relay device 120 receives the data format verification signal from the first payment terminal 130 (S750).

The payment relay device 120 provides data to the RF antenna 125 to transmit the data format authentication signal to the first payment terminal 130 (S760).

The payment relay device 120 receives the card validation signal from the first payment terminal 130 and transmits it to the terminal 110 (S770).

The payment relay device 120 receives the card validity authentication signal from the terminal 110 and transmits it to the first payment terminal 130 (S780).

8 is a timing chart showing a process of authenticating a card with a second payment terminal according to an embodiment of the present invention.

The second payment terminal 135 transmits a card qualification verification signal (S810).

The terminal 110 transmits a card qualification authentication signal to the second payment terminal 135 (S820).

The second payment terminal 135 transmits a data format verification signal (S830).

The terminal 110 transmits the data format authentication signal to the second payment terminal 135 (S840).

The second payment terminal 135 transmits the validation signal of the card to the terminal 110 (S850).

The terminal 110 transmits the validity authentication signal of the card to the second payment terminal 135 (S860).

9 is a timing chart illustrating a process in which a terminal performs payment with a first payment terminal according to an embodiment of the present invention. The payment execution process illustrated in FIG. 9 may be a process in which the terminal 110 performs payment with the first payment terminal 130 for the first time, but while a service is provided, the second payment (using different communication methods) It may be a process after the payment with the terminal 135 has been advanced.

The first payment terminal 130 transmits a payment start signal to the card that has been authenticated (S910). The first payment terminal 130 passes the authentication process described with reference to FIG. 6, and the terminal 110 receives the payment start signal to the card already issued through the payment relay device 120 and the terminal 110, and then the card management server (140).

The card management server 140 transmits an electronic signature along with the transaction transaction of the corresponding card (S920). The card management server 140 transmits a transaction transaction with an electronic signature so that the first payment terminal 130 can check payment information that was performed immediately before the first payment terminal 130 wants to perform payment with the corresponding card. . Accordingly, when the payment is performed with another payment terminal using the same communication method as the first payment terminal 130, the payment is performed with other payment terminals using a different communication method from the first payment terminal 130. Even in the case of the case, since the corresponding payment is reflected in the transaction transaction, the first payment terminal 130 may check the transaction transaction and reflect the payment status in its own payment amount. For example, assuming that the first payment terminal 130 is a payment terminal when disembarking in a subway station, general payment that does not use the payment relay device 120 as the second payment terminal when boarding. May have been performed. This content is reflected in the transaction transaction by the card management server 140. By allowing the first payment terminal 130 to receive and confirm such a transaction transaction, it is possible to calculate how much money should be paid because payment has been performed by another payment terminal.

The first payment terminal 130 transmits an electronic signature for requesting payment (S930). The first payment terminal 130 generates an electronic signature to request payment for the payment amount calculated using the transaction transaction, and then passes through the payment relay device 120 and the terminal 110 to the card management server 140 send.

Card management server 140 proceeds with the payment, and updates the transaction transaction (S940). The card management server 140 checks the received electronic signature to proceed with the payment, and updates the transaction transaction by reflecting the completed payment in the transaction transaction.

The card management server 140 transmits an electronic signature indicating that payment is completed to the first payment terminal 130 (S950). The card management server 140 transmits the electronic signature to the first payment terminal 130 through the terminal 110 and the payment relay device 120 after the payment is completed by completing the payment.

10 is a timing chart illustrating a process in which a terminal performs payment with a second payment terminal according to an embodiment of the present invention. The payment execution process illustrated in FIG. 10 may be a process in which the terminal 110 performs payment with the second payment terminal 135 for the first time, but while one service is provided, the first payment (using different communication methods) It may be a process after the payment with the terminal 130 has been advanced.

The second payment terminal 135 transmits a payment start signal to the card that has been authenticated (S1010). The second payment terminal 135, through the authentication process described with reference to FIG. 8, transmits a payment start signal to the card previously issued by the terminal 110 to the card management server 140 via the terminal 110.

The card management server 140 transmits an electronic signature along with the transaction transaction of the corresponding card (S1020). The card management server 140 transmits a transaction transaction with an electronic signature so that the second payment terminal 135 can check payment information that was performed immediately before the second payment terminal 135 wants to perform payment with the corresponding card. .

The second payment terminal 135 transmits an electronic signature for requesting payment (S1030). The second payment terminal 135 generates an electronic signature to request payment for the payment amount calculated using the transaction transaction, and transmits it to the card management server 140 via the terminal 110.

Card management server 140 proceeds with the payment, and updates the transaction transaction (S1040). The card management server 140 checks the received electronic signature to proceed with the payment, and updates the transaction transaction by reflecting the completed payment in the transaction transaction.

The card management server 140 transmits an electronic signature indicating that payment is completed to the second payment terminal 135 (S1050). The card management server 140 transmits to the second payment terminal 135 through the terminal 110 through the terminal 110 after payment is completed by completing the payment.

11 is a flowchart illustrating a method for a terminal to perform payment with first and second payment terminals according to an embodiment of the present invention.

The terminal 110 receives the payment start signal for the authenticated card, and transmits it to the card management server (S1110). The terminal 110 receives a payment start signal for the authenticated card from the payment relay device 120 using the first communication module 210 or the second payment terminal 135 using the second communication module 215. Directly received from, and transmits it to the card management server 140 using the first communication module 210.

The terminal 110 receives and transmits an electronic signature from the card management server along with the transaction transaction of the corresponding card (S1120). The terminal 110 receives the electronic signature together with the transaction transaction of the corresponding card from the card management server 140 using the first communication module 210, and uses this first communication module 210 to settle the payment relay device ( 120) or directly to the second payment terminal 135 using the second communication module 215.

The terminal 110 receives the electronic signature for requesting payment and transmits it to the card management server 140 (S1130). The terminal 110 directly transmits the electronic signature for requesting payment from the payment relay device 120 using the first communication module 210 or directly from the second payment terminal 135 using the second communication module 215. Upon reception, it is transmitted to the card management server 140 using the first communication module 210.

The terminal 110 receives and transmits an electronic signature indicating that payment has been completed from the card management server (S1140). The terminal 110 receives an electronic signature indicating that payment is completed from the card management server 140 using the first communication module 210, and uses this first communication module 210 to make a payment relay device 120 Or directly to the second payment terminal 135 using the second communication module 215.

Although 6 to 11 are described as sequentially executing each process, this is merely illustrative of the technical idea of an embodiment of the present invention. In other words, a person having ordinary knowledge in the technical field to which one embodiment of the present invention pertains may execute or change one or more of the processes described in each drawing without departing from the essential characteristics of one embodiment of the present invention. Since the process may be applied in various modifications and variations by executing in parallel, FIGS. 6 to 11 are not limited to the time series order.

Meanwhile, the processes illustrated in FIGS. 6 to 11 may be implemented as computer readable codes on a computer readable recording medium. The computer-readable recording medium includes all kinds of recording devices in which data readable by a computer system is stored. That is, the computer-readable recording medium includes a magnetic storage medium (eg, ROM, floppy disk, hard disk, etc.) and an optical reading medium (eg, CD-ROM, DVD, etc.). 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 this embodiment belongs may be capable of various modifications and variations without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical spirit of the present embodiment, but to explain, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of the present embodiment should be interpreted by the claims below, and all technical spirits within the equivalent range should be interpreted as being included in the scope of the present embodiment.

100: payment system
110: terminal
120: payment relay device
125: RF antenna
130, 135: payment terminal
140: card management server
210, 310, 410, 510: communication module
220, 320, 420, 520: control module
230, 330, 430, 530: memory unit
340: emulation module
540: signature value management module

Claims (12)

In a method for performing payment with a plurality of payment terminals each using a different communication method with the card issued by the terminal,
By sending an electronic signature for a payment request received from the first payment terminal to the card management server using the first communication method, payment with the first payment terminal is completed and stored in the card management server, the previously issued card A first update process that allows the transaction transaction of the transaction to be updated;
A first processing process of receiving a payment start signal to a pre-issued card generated by a second payment terminal using a second communication method, and transmitting the received payment start signal to the card management server;
The second payment terminal receives an electronic signature along with the transaction transaction updated in the first update process from the card management server, and receives the transaction transaction and electronic signature updated in the first update process using the second communication method. A second process of transmitting to the; And
A third process of receiving an electronic signature for a payment request from the second payment terminal using the second communication method and transmitting the electronic signature for the received payment request to the card management server
Payment method characterized in that it comprises a. According to claim 1,
The transaction transaction,
Information on the means in which the payment terminal is disposed, information on the space in which the payment terminal is disposed, information on the type of means on which the payment terminal is disposed, information on the payment terminal, and on the type of transaction with the payment terminal Payment method, characterized in that it comprises a part or all of the information and the information about the time when the transaction with the payment terminal is completed. According to claim 2,
The transaction transaction,
Payment method characterized in that it is stored only in the card management server. According to claim 3,
The card management server,
When receiving an electronic signature for the payment request, payment is performed according to the payment request, and the stored transaction transaction is updated by reflecting the payment information. According to claim 1,
The first communication method and the second communication method,
Payment method, characterized in that implemented in different communication methods. The method of claim 5,
Any one of the first communication method and the second communication method,
Payment method, characterized in that implemented by short-range wireless communication. A computer-readable recording medium recording a program for executing the method of any one of claims 1 to 6 on a computer. In the terminal for performing a plurality of payment terminals and each payment using a different communication method with a card issued in advance,
A first communication unit for transmitting and receiving a signal for payment with a first payment terminal using a first communication method;
A second communication unit for transmitting and receiving a signal for payment with a second payment terminal and a card management server using a second communication method; And
By using at least one of the first communication unit and the second communication unit, by sending an electronic signature for a payment request received from any one of the first payment terminal and the second payment terminal to the card management server, the first payment Controls such that a transaction with one of the terminal and the second payment terminal is completed and the transaction transaction of the previously issued card stored in the card management server is updated,
Control unit for controlling to transmit and receive a signal for payment to perform payment with the other of the first payment terminal and the second payment terminal by using at least one of the first communication unit and the second communication unit
Terminal comprising a. The method of claim 8,
The transaction transaction,
Information on the means in which the payment terminal is disposed, information on the space in which the payment terminal is disposed, information on the type of means on which the payment terminal is disposed, information on the payment terminal, and on the type of transaction with the payment terminal A terminal comprising part or all of information and information regarding a time when a transaction with the payment terminal is completed. The method of claim 9,
The transaction transaction,
The terminal characterized in that it is stored only in the card management server. The method of claim 8,
The first communication unit and the second communication unit,
A terminal characterized in that it transmits and receives signals to and from each payment terminal using different communication methods. The method of claim 11,
Any one of the first communication unit and the second communication unit,
A terminal characterized in that it transmits and receives signals to and from each payment terminal using near field communication (NFC).

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