KR20220062176A - Method and system for managing point using blockchain based on distributed ledger - Google Patents

Abstract

The present disclosure relates to a method and system for managing a point using a blockchain based on a distributed ledger. In one embodiment, as the method for managing a point using a blockchain, the method for managing a point using a blockchain includes the steps of: receiving payment-related information including point information according to card payment at an affiliated store from a payment network through a VPN server; performing blockchainization by storing the payment-related information in a block; and transmitting information on the block to a user terminal related to card payment.

Description

Point management method and system using distributed ledger-based blockchain {METHOD AND SYSTEM FOR MANAGING POINT USING BLOCKCHAIN BASED ON DISTRIBUTED LEDGER}

The present disclosure relates to a technology for managing points according to card payment using block chain technology.

Currently, many domestic and foreign business operators are operating the mileage point system, one of the compensation programs, as part of marketing expenses returned to consumers. According to the mileage point system, predetermined points are provided and accumulated when payment for product purchase or service use is made, and products are provided with respect to the accumulated points or the accumulated points can be used as a payment method.

However, it is required to accumulate points for a long period of time up to the limit that can be used, and the actual effect of using points may be somewhat reduced, such as disappearing after a certain period of time has elapsed. Therefore, it is necessary to develop a technology for the efficient use of points according to payment.

On the other hand, as cryptocurrency has recently become a hot topic, blockchain, the underlying technology of cryptocurrency, is also attracting attention. The blockchain is a distributed data storage environment in which small data called 'blocks' are stored in a chain-type link-based distributed data storage environment created based on the P2P method, so that no one can arbitrarily modify it and anyone can view the results of the change. It is a data forgery prevention technology based on computing technology.

In a block, all transaction details that were transmitted to users before the block was discovered are recorded, and since this is transmitted equally to all users in a peer-to-peer manner, transaction details cannot be arbitrarily modified or omitted. A block has a link between the date it was discovered and the previous block, and a set of these blocks is called a blockchain. Unlike the existing transaction records that are stored on a central server when transacting with electronic money, the blockchain shows the change records to all users and compares them with each other to prevent counterfeiting.

Therefore, a technology that allows the use of block chain technology to be used for point management may be introduced, and there is a need to introduce a technology capable of securing higher reliability and security and managing points more quickly.

In the background described above, the present disclosure intends to provide a point management method and system using a distributed ledger-based blockchain that can manage payment-related information according to payment by blockchain using a blockchain server configured in a private network.

In addition, the present disclosure connects a financial network and a private network through a VPN server to receive payment-related information from the financial network, and a distributed ledger that can manage the received payment-related information as a block chain using a blockchain server configured in the private network. We want to provide a point management method and system using a blockchain based blockchain.

In addition, the present disclosure provides a distribution that can store payment-related information in a block according to a Delegated Proof of Stake (DPoS) method consensus algorithm in a blockchain server configured in each of two regions provided by the cloud system. We want to provide a point management method and system using a ledger-based blockchain.

In addition, the present disclosure intends to provide a point management method and system using a distributed ledger-based block chain that can be managed in a block chain with respect to point use information.

In addition, the present disclosure intends to provide a point management method and system using a distributed ledger-based blockchain that can manage payment cancellation information by blockchain.

In one embodiment devised to solve the above problem, in a point management method using a block chain, receiving payment related information including point information according to card payment at an affiliated store from a payment network through a VPN server; It is possible to provide a point management method using a block chain comprising the steps of storing payment-related information in a block to form a block chain and transmitting the block information to a user terminal related to card payment.

The payment-related information may further include customer information, card information, and payment information.

The block chaining step may be performed on a block chain server configured in a cloud system connected through a private network connected to the VPN server.

In the block chaining step, the approved payment-related information among the payment-related information may be stored in a block using a Delegated Proof of Stake (DPoS) method consensus algorithm.

The consensus algorithm of the delegated proof-of-stake method can determine whether to approve payment-related information through agreement between two blockchain servers configured in two regions, respectively, provided by the cloud system.

In the transmitting to the user terminal, information about the block may be transmitted through a wallet server connected to the user terminal.

The point management method using the block chain includes the steps of receiving payment-related information including point use information at the affiliated store from the payment network through a VPN server, transmitting the validation result of the point use information to the payment network, and using points The method may further include storing payment-related information including information in a block to form a block chain and transmitting information about the block to the user terminal.

The point management method using the block chain includes the steps of receiving payment-related information including card payment cancellation information at a merchant from a payment network through a VPN server, and storing payment-related information including card payment cancellation information in a block to create a block chain It may further include the step of transmitting and transmitting information about the block to the user terminal.

In addition, in another embodiment, in a point management system using a block chain, payment-related information including point information according to a card payment at an affiliated store from a payment network is received through a VPN server, and payment-related information is stored. It is possible to provide a point management system using a block chain including a server, a block chain server that stores payment-related information in blocks to form a block chain, and a wallet server that transmits block information to a user terminal related to card payment.

The payment-related information may further include customer information, card information, and payment information.

The blockchain server may be configured in a cloud system connected through a private network connected to the VPN server.

The blockchain server may store approved payment-related information among payment-related information in a block using a Delegated Proof of Stake (DPoS) method consensus algorithm.

The consensus algorithm of the delegated proof-of-stake method can determine whether to approve payment-related information through agreement between two blockchain servers configured in two regions, respectively, provided by the cloud system.

The wallet server may transmit information about the block to the user terminal connected to the wallet server through the wallet application.

When payment-related information including point use information at the affiliated store is received from the payment network through the VPN server, the management server may transmit a validation result of the point use information to the payment network, and the block chain server Payment-related information including usage information may be stored in a block to form a block chain, and the wallet server may transmit information about the block to the user terminal.

The management server may receive payment-related information including card payment cancellation information at the affiliated store from the payment network through the VPN server, and the block chain server stores payment-related information including card payment cancellation information in a block can be converted into a block chain, and the wallet server can transmit block information to the user terminal.

According to the present disclosure, by using a block chain server configured in a private network to manage payment related information according to payment in a block chain, it is possible to more safely and quickly manage points according to payment.

In addition, by connecting the financial network and the private network through the VPN server to receive payment-related information from the financial network, and managing the received payment-related information as a block chain using the blockchain server configured in the private network, points in a higher security situation can manage

In addition, faster and more efficient points are stored by storing payment-related information in blocks according to the Delegated Proof of Stake (DPoS) method consensus algorithm in the blockchain server configured in each of the two regions provided by the cloud system. management may be possible.

In addition, by managing the point use information in a block chain, it is possible to manage more safely and quickly even when using points.

In addition, by managing the payment cancellation information in a block chain, it is possible to process points more quickly even in the case of payment cancellation.

1 is a view for explaining a point management system using a block chain according to an embodiment of the present disclosure.
2 is a view for explaining the operation of the point management system using a block chain in the point earning process according to an embodiment of the present disclosure.
3 is a diagram for explaining an operation of a point management system using a block chain in a point use process according to an embodiment of the present disclosure.
4 is a view for explaining an operation of a point management system using a block chain in a payment cancellation process according to an embodiment of the present disclosure.
5 is a flowchart illustrating a point management method using a block chain according to an embodiment of the present disclosure.
6 is a view for explaining a process of accumulating points generated according to a payment according to an embodiment of the present disclosure.
7 is a diagram for explaining a process of using points for payment according to an embodiment of the present disclosure.
8 is a diagram for explaining a process of processing a payment cancellation and managing points according to an embodiment of the present disclosure.

Hereinafter, some embodiments of the present disclosure will be described in detail with reference to exemplary drawings. In adding reference numerals to components of each drawing, the same components may have the same reference numerals as much as possible even though they are indicated in different drawings. In addition, in describing the present embodiments, if it is determined that a detailed description of a related well-known configuration or function may obscure the gist of the present technical idea, the detailed description may be omitted. When "includes", "having", "consisting of", etc. mentioned in this specification are used, other parts may be added unless "only" is used. When a component is expressed in the singular, it may include a case in which the plural is included unless otherwise explicitly stated.

In addition, in describing the components of the present disclosure, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the elements from other elements, and the essence, order, order, or number of the elements are not limited by the terms.

In the description of the positional relationship of the components, when it is described that two or more components are "connected", "coupled" or "connected", two or more components are directly "connected", "coupled" or "connected" It should be understood that, however, two or more components and other components may be further “interposed” and “connected,” “coupled,” or “connected.” Here, other components may be included in one or more of two or more components that are “connected”, “coupled” or “connected” to each other.

In the description of the temporal flow relationship related to the components, the operation method or the production method, for example, the temporal precedence relationship such as "after", "after", "after", "before", etc. Alternatively, when a flow precedence relationship is described, it may include a case where it is not continuous unless "immediately" or "directly" is used.

On the other hand, when numerical values or corresponding information (eg, level, etc.) for a component are mentioned, even if there is no separate explicit description, the numerical value or the corresponding information is based on various factors (eg, process factors, internal or external shock, Noise, etc.) may be interpreted as including an error range that may occur.

In the present disclosure, a 'part' may include a unit realized by hardware, a unit realized by software, and a unit realized using both. In addition, one unit may be implemented using two or more hardware, and two or more units may be implemented by one hardware.

In the present disclosure, some of the operations or functions described as being performed by the terminal, apparatus, or device may be performed instead of by a server connected to the terminal, apparatus, or device. Similarly, some of the operations or functions described as being performed by the server may also be performed in a terminal, apparatus, or device connected to the server.

Hereinafter, a point management method and system using a distributed ledger-based block chain according to embodiments of the present disclosure will be described with reference to related drawings.

1 is a view for explaining a point management system using a block chain according to an embodiment of the present disclosure.

Referring to FIG. 1 , the entire system 10 for point management according to an embodiment may include a payment network 200 and a point management system 100 using a block chain.

The point management system 100 using a block chain receives payment-related information including point information according to card payment at an affiliated store from a payment network through a VPN (Virtual Private Network) server 140, and receives payment-related information It may include a management server 110 for storing, a block chain server 120 for storing payment-related information in a block to form a block chain, and a wallet server 130 for transmitting information about the block to a user terminal related to card payment. .

In addition, the point management system 100 using the block chain may be communicatively connected through the VPN server 140 using the payment network 200 and the dedicated line 20 . Accordingly, the point management system 100 using the block chain may be configured as a private network including a management server, a block chain server, and a wallet server through a VPN server. According to an example, the point management system 100 using a block chain may further include a VPN server 140 .

The management server 110 may control the overall operation of the point management system using the block chain. The management server 110 may receive payment related information according to the card payment from the payment network 200 through the VPN server. According to an example, the payment-related information may include point information according to card payment, customer information, card information, and payment information. The payment network 200 is composed of a financial network that is a closed network, and is communication-connected with a member store device of a card company to acquire payment-related information according to online or offline card payment. The management server 110 may receive payment related information obtained from the payment network 200 .

The management server 110 may include a web server that provides a point management service through the point management system 100 using a block chain and a database (DB) server in which payment-related information is stored and updated. According to an example, the web server may receive payment-related information from the payment network 200 and store the payment-related information in a database server. Alternatively, the database server may receive and store payment related information directly from the payment network 200 .

The management server 110 may store customer information in association with card information used for payment, payment information, and point information corresponding thereto. When payment related information by the same user is received thereafter, the management server 110 may update or accumulate and store the corresponding payment related information.

The management server 110 may transmit payment related information received from the payment network 200 to the block chain server 120 .

The block chain server 120 includes, as each node, user terminals subscribed to the point management service provided by the point management system 100, and is formed in a connection structure in which information exchange is possible between a plurality of included nodes. You can build a blockchain network. According to an example, the block chain server 120 may be configured in a cloud system connected through a private network connected to the VPN server. The cloud system may be, for example, a system that provides a cloud service such as Amazon Web Service (AWS). However, this is an example, and the content according to the present disclosure may be applied to a cloud system that provides other known cloud services as long as it does not go against the technical idea.

The block chain server 120 may store the approved payment related information among the payment related information in a block by using a Delegated Proof of Stake (DPoS) method consensus algorithm. In this case, the consensus algorithm of the delegated proof-of-stake method may select two representative nodes and determine whether to approve payment-related information through agreement between the two representative nodes.

To this end, two blockchain servers each configured in two regions provided by the cloud system can be set as two representative nodes in the blockchain network. It is possible to determine whether to approve payment-related information through an agreement between the two established representative nodes. Accordingly, it may be possible to more quickly and efficiently approve payment-related information.

The block chain server 120 may generate a block at a predetermined time interval and store the approved payment related information in the block during the corresponding time period. In addition, the block chain server 120 may generate a new block for a subsequent time interval and connect it with a block generated in the previous time interval to form a block chain.

According to an example, a block may include a header and a body. The header of the block may include previous block hash information, block information, and block hash as identification information of the block. The block information may include at least one of version information indicating a software/protocol version, merklehash information, block generation time, difficulty control information, and nonce information.

The previous block hash information represents the block hash of the block immediately preceding in the block chain, and the Merkle hash may be a hash value located at the root of the tree when the transaction hash of individual transaction information is constructed in the form of a binary tree. In addition, the calculation number (nonce) information may indicate the number of calculations that start from 0 and increase by 1 until a hash value that satisfies the condition is found.

The body of the block may include payment-related information including point information, customer information, card information, and payment information.

According to an example, the block chain server 120 may issue a separate cryptocurrency during the block chaining process. The point management system 100 using the block chain may convert the corresponding cryptocurrency into points generated according to card payment according to a predetermined ratio and issue it. Accordingly, cryptocurrency can be transacted through subscribers of the corresponding point management service.

The wallet server 130 may transmit block information to a user terminal connected to the wallet server through a wallet application. The wallet server 130 may receive payment related information from the management server 110 , and may receive information about a block chained block from the block chain server 120 . A wallet available to a user through the wallet application may include a wallet address and a password assigned to each user.

The wallet server 130 may provide an installation file for executing the wallet application to the user terminal subscribed to the point management service. When the wallet application is installed and executed in the user terminal, the wallet server 130 may provide a point management service through the point management system. For example, the wallet server 130 may transmit payment-related information and block information to the user terminal to the user terminal.

Also, according to an example, when cryptocurrency is generated, the wallet server 130 may transmit information about the corresponding cryptocurrency to the user terminal. In this case, the wallet server 130 may perform processing for the cryptocurrency transaction according to a request from the user terminal.

According to this, by managing the payment-related information according to the payment into a blockchain using the blockchain server configured in the private network, it is possible to manage the points according to the payment more safely and quickly, and manage the points in a higher security situation. .

Hereinafter, a detailed operation of the point management system 100 using a block chain will be described with reference to the related drawings.

2 is a view for explaining the operation of the point management system using a block chain in the point earning process according to an embodiment of the present disclosure.

For example, it is assumed that a user performs a payment according to a transaction such as purchase of a product by using the corresponding card offline or online with respect to the affiliated store 400 of a predetermined card company. That is, the user may visit the affiliate store 400 and make a payment or may make a payment through the user terminal 500 .

The user terminal 500 may be an electronic device capable of interworking with the card payment and point management system 100 through a wallet application. For example, the user terminal 500 includes a mobile phone, a smart phone, a laptop computer, a digital broadcasting terminal, personal digital assistants (PDA), a portable multimedia player (PMP), a navigation system, and a slate PC (slate). A mobile terminal such as a PC), a tablet PC, an ultrabook, and a wearable device may be included. In addition, the user terminal 500 according to the present disclosure may include a fixed terminal such as a digital TV, a desktop computer, a digital signage, and the like, except when applicable only to a mobile terminal.

When payment using a card is performed, the affiliated store device 400 may transmit card information and payment information to the payment network 200 .

Referring to FIG. 2 , a payment network 200 and a financial network 300 are separately illustrated, assuming the need for a card agency, such as overseas payment, according to an example. In this case, the payment network 200 may be, for example, a network of a card agency such as VISA or MASTAR. The payment network 200 may be communicatively connected with the financial network 300 that is again established by a card company or a bank. However, according to another example, when a separate card agency is not required, the financial network 300 may further perform the operation performed by the payment network 200 in addition to the operation of the financial network 300 to be described below. there is.

The payment network 200 is configured as a closed network, and is communication-connected with the affiliated store device of the card company to obtain payment-related information according to online or offline card payment. The payment network 200 may request validation of payment-related information from the financial network 300 built by a card company or a bank.

The financial network 300 may perform validation of payment-related information according to a request from the payment network 200 . The financial network 300 may check the requested payment related information and determine whether to approve the corresponding card payment based on customer information, card information, and payment information. The financial network 300 may transmit a result of the determined approval to the payment network 200 .

The payment network 200 may transmit the result of whether or not approval received from the financial network 300 to the affiliated store device 400 . The affiliated store device 400 may complete the payment, such as approval or rejection of the corresponding payment, according to the result of the received approval. Card payment may be performed through this series of processes.

Meanwhile, when the payment is approved, the payment network 200 may transmit payment related information including customer information, card information, and point information according to the use of the corresponding card together with the payment information to the point management system 100 . The point information may include the number of points generated according to the policy of the card company for the amount paid using the card.

Hereinafter, it will be described that the point information is determined in the payment network 200 or the financial network 300 and transmitted to the point management system 100 , but this is not limited thereto as an example. According to another example, point information may be integratedly generated and managed by the management server 110 of the point management system 100 . Alternatively, according to another example, the point management system 100 may generate point information by calculating a separate new point applied in the point management service based on the point information received from the payment network 200 .

The management server 110 of the point management system 100 may receive payment related information according to the card payment from the payment network 200 through the VPN server. The management server 110 may store point information included in the received payment-related information in association with customer information, card information used for payment, and payment information. When payment related information by the same user is received thereafter, the management server 110 may update or accumulate and store the corresponding payment related information.

The management server 110 may transmit payment related information received from the payment network 200 to the block chain server 120 .

The blockchain server 120 selects two representative nodes using a consensus algorithm of the delegated proof-of-stake method, and determines whether to approve payment-related information including point information through agreement between the two representative nodes. . To this end, two blockchain servers each configured in two regions provided by the cloud system can be set as two representative nodes in the blockchain network.

The block chain server 120 may generate a block at every predetermined time interval, and store payment related information including point information for payment approved during the time in the block. In addition, the block chain server 120 may generate a new block for a subsequent time interval and connect it with a block generated in the previous time interval to form a block chain.

The block chain server 120 may transmit information about the block in which the generated point information is stored to the wallet server. The wallet server 130 may transmit information about the block in which the point information is stored to the user terminal 500 of the user who is a member of the point management service through the wallet application 131 .

The user may check accumulated point information through the wallet application executed in the user terminal 500 .

According to this, by using a block chain server configured in a private network to manage point information on points generated according to card payment into a block chain, it is possible to more safely and quickly manage points according to payment. In addition, faster and more efficient point management may be possible by performing authentication and storage of point information according to the agreement of two representative nodes each configured in two regions provided by the cloud system.

3 is a diagram for explaining an operation of a point management system using a block chain in a point use process according to an embodiment of the present disclosure.

For example, it is assumed that a user performs a payment according to a transaction such as purchase of a product by using points accumulated offline or online with respect to the affiliated store 400 of a predetermined card company.

When payment using points is performed, the affiliated store device 400 may transmit point information, card information, and payment information to the payment network 200 .

When the payment network 200 obtains payment related information from the affiliated store device 400 , the payment network 200 may request validation of the payment related information from the point management system 100 .

When payment-related information including point use information at an affiliated store is received from the payment network 200 through the VPN server, the management server 110 may perform a validity check on the point use information. That is, the management server 110 may determine whether the use of points for the corresponding payment is valid based on the payment-related information stored in the DB server.

The management server 110 may approve payment by using the points when the value of the points accumulated for the corresponding user is greater than the requested payment amount. The management server 110 may transmit a result of the determined approval to the payment network 200 . In addition, the management server 110 may transmit payment-related information including point information to the block chain server 120 .

The payment network 200 may transmit the result of whether or not approval received from the point management system 100 to the affiliated store device 400 . The affiliated store device 400 may complete the payment, such as approval or rejection of the corresponding payment, according to the result of the received approval. Payment according to the use of points may be performed through this series of processes.

When payment according to the use of the corresponding point is completed, the payment network 200 may transmit information on the completion of the use of the corresponding point to the point management system 100 . The management server 110 may store the completion information for point use in the DB server and transmit it to the block chain server 120 .

The blockchain server 120 may determine whether to approve payment-related information including point use information through agreement between two representative nodes using a consensus algorithm of the delegated stake proof method. The block chain server 120 may store payment-related information including point use information for an approved payment in a block.

The block chain server 120 may transmit information about the block in which the generated point use information is stored to the wallet server. The wallet server 130 may transmit information on the block in which the point use information is stored to the user terminal 500 of the user who is a member of the point management service through the wallet application 131 .

The user may check the used point information through the wallet application executed in the user terminal 500 .

According to this, by managing the point use information in a block chain, it is possible to manage more safely and quickly even when using points.

4 is a diagram for explaining an operation of a point management system using a block chain in a payment cancellation process according to an embodiment of the present disclosure.

For example, it is assumed that a user cancels a payment made by using a card or points offline or online with respect to the affiliated store 400 of a predetermined card company.

In the conventional case, when payment cancellation is requested from the user terminal 500 , the affiliated store device 400 transmits payment cancellation information to the payment network 200 . When the payment network 200 transmits payment cancellation information to the financial network 300 , the financial network 300 cancels the payment when the minimum payment is valid and transmits the payment cancellation information to the user terminal 500 . At this time, if the payment network 200 is a network of a card agency for overseas payment, such as Visa or MasterCard, it takes 2-3 days to process the transmission of payment cancellation data, so that the user can immediately check whether the payment is canceled or not. There was no discomfort.

Accordingly, hereinafter, the present disclosure proposes a more rapid and safe payment cancellation method through the point management system 100 .

According to an embodiment, when payment cancellation is requested from the user terminal 500 , the affiliated store device 400 transmits payment cancellation information to the payment network 200 . The payment network 200 may transmit payment cancellation information to the point management system 100 while transmitting the payment cancellation information to the financial network 300 .

The management server 110 of the point management system 100 may receive payment related information including payment cancellation information at the affiliated store from the payment network 200 through the VPN server. The management server 110 may store the payment cancellation information in the DB server and transmit it to the block chain server 120 .

The block chain server 120 may store payment related information including payment cancellation information in a block to form a block chain. That is, the block chain server 120 may determine whether to approve payment-related information including payment cancellation information through agreement between two representative nodes using a consensus algorithm of the delegated stake proof method.

The block chain server 120 may generate a block and store payment-related information including payment cancellation information for the canceled payment in the block. The blockchain server 120 may transmit information about the block in which the generated payment cancellation information is stored to the wallet server. The wallet server 130 may transmit information about a block in which payment cancellation information is stored to the user terminal 500 of the user who has signed up for the point management service through the wallet application 131 .

The user may check canceled payment information in real time through the wallet application executed in the user terminal 500 .

According to this, by managing the payment cancellation information in a block chain, it is possible to process the points faster in real time even when the payment is canceled.

Hereinafter, embodiments related to a point management method that can be implemented in the point management system using the aforementioned block chain will be described with reference to the accompanying drawings. It is apparent to those skilled in the art that the present disclosure may be embodied in other specific forms without departing from the spirit and essential characteristics of the present disclosure.

5 is a flowchart illustrating a point management method using a block chain according to an embodiment of the present disclosure.

The point management method using a block chain according to an embodiment of the present disclosure may be implemented in the point management system 100 using the block chain described with reference to FIG. 1 . Hereinafter, with reference to the necessary drawings, a method for managing a point using a block chain according to an embodiment of the present disclosure and an operation of the point management system 100 for implementing the method will be described in detail.

Referring to FIG. 5 , the point management system may receive payment-related information including point information according to card payment at the affiliate store from the payment network through the VPN server ( S100 ).

A point management system using a block chain can be communicated through a VPN server using a payment network and a dedicated line. Accordingly, a point management system using a block chain may be configured as a private network including a management server, a block chain server, and a wallet server through a VPN server.

The point management system may receive payment related information according to card payment from the payment network through the VPN server. According to an example, the payment-related information may include point information according to card payment, customer information, card information, and payment information. The payment network is composed of a financial network that is a closed network, and is communicated with a card company's affiliated store device to acquire payment-related information according to online or offline card payment. The point management system may receive and store payment-related information obtained from a payment network.

The point management system may link and store customer information, card information used for payment, payment information, and point information corresponding thereto. After receiving payment related information by the same user, the point management system may update or accumulate and store the corresponding payment related information.

Again, referring to FIG. 5 , the point management system may store payment-related information in a block to form a block chain (S110).

The point management system includes user terminals subscribed to the point management service as each node, and may configure a block chain network formed in a connection structure in which information exchange is possible between a plurality of included nodes. According to an example, the point management system may configure the block chain server in the cloud system connected through a private network connected to the VPN server.

The point management system may store approved payment-related information among payment-related information in a block using a Delegated Proof of Stake (DPoS) method consensus algorithm. To this end, the point management system may configure a blockchain server in each of the two regions provided by the cloud system. The point management system can set the two configured blockchain servers as two representative nodes in the blockchain network. The point management system may determine whether to approve payment-related information through an agreement between two set representative nodes. Accordingly, it may be possible to more quickly and efficiently approve payment-related information.

The point management system may generate a block at a predetermined time interval and store the approved payment related information in the block during the corresponding time period. In addition, the point management system can create a new block for the subsequent time interval and connect it with the block created in the previous time interval to create a blockchain.

Referring again to FIG. 5 , the point management system may transmit block information to a user terminal related to card payment (S120).

The point management system may transmit block information to the user terminal connected to the wallet server through the wallet application. A wallet available to a user through the wallet application may include a wallet address and a password assigned to each user.

When the wallet application is installed and executed in the user terminal, the point management system may provide a point management service. For example, the point management system may transmit payment related information and block information to the user terminal to the user terminal.

According to this, by managing the payment-related information according to the payment into a blockchain using the blockchain server configured in the private network, it is possible to manage the points according to the payment more safely and quickly, and manage the points in a higher security situation. .

6 is a view for explaining a process of accumulating points generated according to a payment according to an embodiment of the present disclosure.

When a user performs a payment according to a transaction such as purchase of a product by using the card offline or online with respect to an affiliated store of a predetermined card company (S200), the affiliated store device transmits card information and payment information to the payment network (S205) can do.

When the payment network acquires payment-related information according to card payment, the payment network may request validation of the payment-related information to the financial network ( S210 ). The financial network may perform validation of payment-related information according to the request of the payment network. The financial network may transmit the result of the determined approval to the payment network (S215).

The payment network may transmit the result of whether or not approval received from the financial network to the affiliated store device ( S220 ). The affiliated store device may complete the payment, such as approval or rejection of the corresponding payment, according to the result of the received approval. Card payment may be performed through this series of processes.

Meanwhile, when the payment is approved, the payment network may transmit payment related information including customer information, card information, and point information according to the use of the corresponding card together with the payment information to the point management system ( S225 ). The point information may include the number of points generated according to the policy of the card company for the amount paid using the card.

The point management system may receive payment related information according to card payment from the payment network through the VPN server. The point management system may store the point information included in the received payment-related information in association with customer information, card information used for payment, and payment information (S230). After receiving payment related information by the same user, the point management system may update or accumulate and store the corresponding payment related information.

The point management system may determine whether to approve payment-related information including point information through agreement between two set representative nodes using a consensus algorithm of the delegated stake proof method ( S235 ).

The point management system may generate a block at every predetermined time interval, and store payment-related information including point information for payment approved during the corresponding time in the block. In addition, the point management system may create a new block for the subsequent time interval, connect it with the block generated in the previous time interval, and form a block chain (S240).

The point management system may transmit information on the block in which the point information is stored to the user terminal of the user who is a member of the point management service through the wallet application (S245).

The user can check the accumulated point information through the wallet application executed on the user terminal.

According to this, by using a block chain server configured in a private network to manage point information on points generated according to card payment into a block chain, it is possible to more safely and quickly manage points according to payment. In addition, faster and more efficient point management may be possible by performing authentication and storage of point information according to the agreement of two representative nodes each configured in two regions provided by the cloud system.

7 is a view for explaining a process of using points for payment according to an embodiment of the present disclosure.

When the user performs a payment according to a transaction such as purchasing a product using the points accumulated offline or online with respect to the affiliated store of a predetermined card company (S300), the affiliated store device transmits the point information, card information, and payment information to the payment network (S305) can be done.

When the payment network obtains payment-related information from the affiliated store device, it may request validation of the payment-related information to the point management system (S310).

The point management system may store (S315) the information when payment-related information including point use information at the affiliated store is received from the payment network through the VPN server. The point management system may perform a validation check on the point use information and transmit a result of whether or not approval is approved to the payment network (S320).

The payment network may transmit the result of whether or not approval received from the point management system to the affiliated store device (S325). The affiliated store device may complete the payment, such as approval or rejection of the corresponding payment, according to the result of the received approval. Payment according to the use of points may be performed through this series of processes.

When the payment according to the use of the corresponding point is completed, the payment network may transmit information on the completion of the use of the corresponding point to the point management system (S330). The point management system may store completion information for point use.

The point management server may determine whether to approve payment-related information including point use information through agreement between two representative nodes using a consensus algorithm of the delegated stake proof method (S335). The point management system may store payment-related information including point use information for approved payment in a block, and may block-chain (S340).

The point management server may transmit information about the block in which the point use information is stored to the user terminal of the user who is a member of the point management service through the wallet application (S345).

The user can check the used point information through the wallet application executed in the user terminal.

According to this, by managing the point use information in a block chain, it is possible to manage more safely and quickly even when using points.

8 is a view for explaining a process of processing a payment cancellation and managing points according to an embodiment of the present disclosure.

When a user cancels a payment made by using a card or points offline or online with respect to an affiliated store of a predetermined card company (S400), the affiliated store device transmits payment cancellation information to the payment network (S405). The payment network may transmit payment cancellation information to the point management system while transmitting the payment cancellation information to the financial network (S410).

The point management system may receive and store payment-related information including payment cancellation information at the affiliated store from the payment network through the VPN server (S415).

The point management system may determine whether to approve payment-related information including payment cancellation information through agreement between two representative nodes using a consensus algorithm of the delegated stake proof method ( S420 ).

The point management system may generate a block, and store and block-chain payment-related information including payment cancellation information for the canceled payment in the block (S425). The point management system may transmit information about a block in which payment cancellation information is stored to a user terminal of a user who has signed up for a point management service through a wallet application (S430).

In addition, the point management system may transmit information about the block in which payment cancellation information is stored to the financial network (S435). The financial network may cancel the payment based on the information on the block in which the payment cancellation information is stored, and transmit the payment cancellation information to the user terminal ( S440 ).

The user can check canceled payment information in real time through the wallet application executed on the user terminal.

According to this, by managing the payment cancellation information in a block chain, it is possible to process the points faster in real time even when the payment is canceled.

The above description is merely illustrative of the technical spirit of the present disclosure, and various modifications and variations will be possible without departing from the essential characteristics of the present invention by those of ordinary skill in the art to which the present disclosure pertains. Accordingly, the disclosed embodiments are intended to explain, not to limit the technical spirit of the present invention, and the scope of the present technical spirit is not limited by these embodiments. The protection scope of the present disclosure 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 disclosure.

Claims (16)

In the point management method using block chain,
Receiving payment-related information including point information according to card payment at an affiliated store from a payment network through a VPN server;
storing the payment-related information in a block to form a block chain; and
transmitting information on the block to a user terminal related to the card payment;
A point management method using a block chain that includes. The method of claim 1,
The payment-related information is
Point management method using a block chain, characterized in that it further includes customer information, card information and payment information. The method of claim 1,
The block chaining step is
A point management method using a block chain, characterized in that it is performed in a block chain server configured in a cloud system connected through a private network connected to the VPN server. 4. The method of claim 3,
The block chaining step is
A point management method using a block chain, characterized in that the approved payment-related information among the payment-related information is stored in the block using a Delegated Proof of Stake (DPoS) method consensus algorithm. 5. The method of claim 4,
The consensus algorithm of the delegated proof-of-stake method is,
A point management method using a block chain, characterized in that it is determined whether to approve the payment related information through an agreement between two block chain servers configured in two regions provided by the cloud system. The method of claim 1,
The step of transmitting to the user terminal,
A point management method using a block chain, characterized in that the information on the block is transmitted through a wallet server connected to the user terminal. The method of claim 1,
receiving payment-related information including point use information at an affiliated store from the payment network through the VPN server;
transmitting a validation result of the point use information to the payment network;
storing payment-related information including the point use information in a block to form a block chain; and
transmitting information on the block to the user terminal;
Point management method using a block chain, characterized in that it further comprises. The method of claim 1,
receiving payment-related information including card payment cancellation information at an affiliated store from the payment network through the VPN server;
storing payment-related information including the card payment cancellation information in a block to form a block chain; and
transmitting information on the block to the user terminal;
Point management method using a block chain, characterized in that it further comprises. In the point management system using block chain,
a management server for receiving payment-related information including point information according to card payment at an affiliated store from a payment network through a VPN server, and storing the payment-related information;
a block chain server that stores the payment related information in a block and converts it into a block chain; and
a wallet server that transmits information on the block to a user terminal related to the card payment;
A point management system using a block chain that includes. 10. The method of claim 9,
The payment-related information is
Point management system using a block chain, characterized in that it further includes customer information, card information and payment information. 10. The method of claim 9,
The blockchain server is
A point management system using a block chain, characterized in that it is configured in a cloud system connected through a private network connected to the VPN server. 12. The method of claim 11,
The blockchain server is
A point management system using a block chain, characterized in that the approved payment-related information among the payment-related information is stored in the block by using a Delegated Proof of Stake (DPoS) method consensus algorithm. 13. The method of claim 12,
The consensus algorithm of the delegated proof-of-stake method is,
Point management system using a block chain, characterized in that it is determined whether to approve the payment related information through an agreement between two block chain servers each configured in two regions provided by the cloud system. 10. The method of claim 9,
The wallet server is
A point management system using a block chain, characterized in that the information on the block is transmitted to a user terminal connected to the wallet server through a wallet application. 10. The method of claim 9,
The management server,
When payment-related information including point use information at an affiliated store is received from the payment network through the VPN server, a validation result for the point use information is transmitted to the payment network,
The blockchain server is
The payment-related information including the point use information is stored in a block and converted into a block chain,
The wallet server is
A point management system using a block chain, characterized in that the information on the block is transmitted to the user terminal. 10. The method of claim 9,
The management server,
Receive payment-related information including card payment cancellation information at an affiliated store from the payment network through the VPN server,
The blockchain server is
Storing payment-related information including the card payment cancellation information in a block to form a block chain,
The wallet server is
A point management system using a block chain, characterized in that the information on the block is transmitted to the user terminal.

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