KR102044394B1 - Method for providing lock-chain based direct mileage service from producer to end-user - Google Patents

Abstract

Provided is a method for providing mileage service for the end consumer of a blockchain-based producer, and provides issuance request information including the quantity of the mileage identification code to be included in the product, the type of the product, and the mileage amount for each kind of the product from the at least one producer terminal. Receiving, transmitting the issued mileage identification code to the at least one producer terminal based on the received issuance request information; at least one when a purchase event occurs in which the at least one consumer terminal reads or scans the mileage identification code Transferring a coin corresponding to the mileage amount of the mileage identification code to the account of the consumer terminal of the product, and the type and quantity of products purchased by the at least one consumer from the mileage identification code read or scanned by the at least one consumer terminal; At least one consumption And transmitting the consumer's consumer information to the producer terminal.

Description

METHOD FOR PROVIDING LOCK-CHAIN BASED DIRECT MILEAGE SERVICE FROM PRODUCER TO END-USER}

The present invention relates to a method of providing a mileage service to an end consumer of a blockchain-based producer, and provides a method of providing a producer-centered mileage platform by directly giving a mileage of a producer to a consumer.

Since the retail industry has been fully open, large marts and convenience stores have emerged, and the proportion of enterprise-type distributors in the distribution market has increased, and the distributors have come to a position where they can exercise purchasing power according to the mass purchase of manufacturers. It also caused unfair trade. With the growth of distributors, cooperation and partnerships between distributors and manufacturers, which are stakeholders in the distribution path, are of paramount importance, but the growing dominance of distributors has led to unethical or inefficient problems among them.

At this time, the distributor has used the earned mileage system to secure customers, in connection with the prior art Korea Patent Publication No. 2012-0030743 (published March 29, 2012) and Korea Patent Publication No. 2016-0041180 (2016 On April 18, 2008, the coupon is configured to capture a barcode or QR code to recognize the identification information and earn points, and when the payment is completed, receives a request for earning points from the payment management server. According to the point earning request signal is disclosed a configuration for accumulating points at a predetermined point or the earning rate of points according to the payment amount.

However, since the companies where each mileage is accumulated are distributed, and consumers lose their mileage without accumulating the effective mileage, it is difficult to derive customer loyalty using mileage and recognize the producer itself. As the number of customers making purchases gradually decreased, producers also recognized the importance of appealing to customers.

One embodiment of the present invention includes a mileage identification code in the product so that the consumer can identify the producer, and if the consumer scans or reads the mileage identification code to pay the consumer electronic block-based electronic money, mileage identification code The product, which is packaged and opened, is regarded as a sold product, so that consumer data can be collected and passed on to the producers for use in the development of the product. It can provide a way to provide mileage services to end consumers of blockchain-based producers, which can protect them from being deprived of their right to live. However, the technical problem to be achieved by the present embodiment is not limited to the technical problem as described above, and other technical problems may exist.

As a technical means for achieving the above-described technical problem, an embodiment of the present invention, issued from at least one producer terminal, including the quantity of mileage identification code to be included in the product, the type of product, and the amount of mileage for each type of product Receiving request information, transmitting the issued mileage identification code to at least one producer terminal based on the received issuance request information, and a purchase event occurs in which at least one consumer terminal reads or scans the mileage identification code Transferring a coin corresponding to the mileage amount of the mileage identification code to the account of the at least one consumer terminal, and the type of the product purchased by the at least one consumer from the mileage identification code read or scanned by the at least one consumer terminal; Quantity, at least one consumer Transmitting the information consumer to the producer terminal.

According to any one of the problem solving means of the present invention described above, the product includes a mileage identification code in the product so that the consumer can identify the producer, and if the customer scans or reads the mileage identification code to the consumer to block-based electronic money The mileage identification code is embedded and packaged as unopened products are regarded as sold, and the consumer data is collected and passed on to the producers for use in product development, resulting in unfair trade or solicitation or exclusion from the distributor's producers. Protect the consumer's right to buy good goods.

1 is a diagram illustrating a mileage service providing system for an end consumer of a blockchain-based producer according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a mileage service providing server included in the system of FIG. 1.
3 is a view for explaining an embodiment in which a mileage service for the end consumer of a blockchain-based producer according to an embodiment of the present invention is implemented.
FIG. 4 is a diagram illustrating a process of transmitting and receiving data between components included in a mileage service providing system for an end consumer of a blockchain-based producer of FIG. 1 according to an embodiment of the present invention.
5 is a flowchart illustrating a method of providing a mileage service for an end consumer of a blockchain-based producer according to an embodiment of the present invention.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

Throughout the specification, when a part is "connected" to another part, this includes not only "directly connected" but also "electrically connected" with another element in between. . In addition, when a part is said to "include" a certain component, which means that it may further include other components, except to exclude other components, unless specifically stated otherwise, one or more other features It is to be understood that the present disclosure does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, parts, or combinations thereof.

As used throughout the specification, the terms "about", "substantially", and the like, are used at, or in close proximity to, numerical values when manufacturing and material tolerances inherent in the meanings indicated are intended to aid the understanding of the invention. Accurate or absolute figures are used to assist in the prevention of unfair use by unscrupulous infringers. As used throughout the specification of the present invention, the term "step of" or "step of" does not mean "step for".

In the present specification, the term 'unit' includes a unit realized by hardware, a unit realized by software, and a unit realized by both. In addition, one unit may be realized using two or more pieces of hardware, or two or more units may be realized by one piece of hardware.

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

In the present specification, some of the operations or functions described as mapping or matching with a terminal mean that a unique number of a terminal or identification information of an individual, which is identification data of the terminal, is mapped or matched. Can be interpreted as

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a mileage service providing system for an end consumer of a blockchain-based producer according to an embodiment of the present invention. Referring to FIG. 1, a mileage service providing system 1 for an end consumer of a blockchain-based producer may include at least one consumer terminal 100, a mileage service providing server 300, and a producer terminal 400. have. However, since the mileage service providing system 1 for the end consumer of the blockchain-based producer of FIG. 1 is only one embodiment of the present invention, the present invention is not limitedly interpreted through FIG. 1.

In this case, each component of FIG. 1 is generally connected through a network 200. For example, as shown in FIG. 1, at least one consumer terminal 100 may be connected to the mileage service providing server 300 through the network 200. The mileage service providing server 300 may be connected to the at least one consumer terminal 100 and the producer terminal 400 through the network 200. In addition, the producer terminal 400 may be connected to the mileage service providing server 300 through the network 200.

Here, the network refers to a connection structure capable of exchanging information between respective nodes such as a plurality of terminals and servers. Examples of such a network include RF, 3rd Generation Partnership Project (3GPP) network, and long term (LTE). Evolution network, 5th Generation Partnership Project (5GPP) network, World Interoperability for Microwave Access (WIMAX) network, Internet, Local Area Network (LAN), Wireless Local Area Network (WLAN), Wide Area Network (WAN) , PAN (Personal Area Network), Bluetooth (Bluetooth) network, NFC network, satellite broadcasting network, analog broadcasting network, DMB (Digital Multimedia Broadcasting) network and the like, but is not limited thereto.

In the following description, the term “at least one” is defined as a singular and plural term, and each component may exist in the singular or plural, even though the term “at least one” does not exist, and may mean the singular or plural. It will be self explanatory. In addition, the singular or plural elements may be changed according to embodiments.

The at least one consumer terminal 100 may be a terminal that scans a mileage identification code of an item purchased by using a web page, an app page, a program, or an application related to mileage service for an end consumer of a blockchain-based producer. The at least one consumer terminal 100 accesses the mileage service page with the data included in the scanned identification code, registers a user, creates a account, and transfers the coin allocated to the mileage identification code. Can be. At this time, the information of the electronic wallet may be provided to the mileage service for coin transfer. In addition, the at least one consumer terminal 100 may be a terminal that performs a coin transaction between consumers.

Here, the at least one consumer terminal 100 may be implemented as a computer that can access a server or terminal in a remote place through a network. Here, the computer may include, for example, a navigation, a laptop equipped with a web browser, a desktop, a laptop, and the like. In this case, the at least one consumer terminal 100 may be implemented as a terminal that can access a server or terminal in a remote place through a network. The at least one consumer terminal 100 is, for example, a wireless communication device that ensures portability and mobility, and may include navigation, personal communication system (PCS), global system for mobile communications (GSM), personal digital cellular (PDC), Personal Handyphone System (PHS), Personal Digital Assistant (PDA), International Mobile Telecommunication (IMT) -2000, Code Division Multiple Access (CDMA) -2000, W-Code Division Multiple Access (W-CDMA), Wireless Broadband Internet A handheld-based wireless communication device such as a terminal, a smartphone, a smart pad, a tablet PC, etc. may be included.

The mileage service providing server 300 may be a server that provides mileage service web pages, app pages, programs or applications for end consumers of blockchain-based producers. Then, the mileage service providing server 300 receives a mileage identification code issuance request from the producer terminal 400, and after grasping the mileage amount and the number of mileage identification codes to be issued by the type of product, type, and corresponding to It may be a server that issues a mileage identification code and stores the information. In addition, the mileage service providing server 300 may be a server that pays a coin (electronic money) corresponding to the mileage amount when the mileage identification code is scanned or read by the consumer terminal 100. The mileage service providing server 300 is a server for updating a blockchain network by generating a node corresponding to the consumer terminal 400 when a transaction or new registration is received in the consumer terminal 400 and an initial coin transfer is received. Can be. In addition, the mileage service providing server 300 may be a server that collects the information of the consumer terminal 100 to make big data, and transmits it to the producer terminal 400.

Here, the mileage service providing server 300 may be implemented as a computer that can be connected to a server or a terminal of a remote place through a network. Here, the computer may include, for example, a navigation, a laptop equipped with a web browser, a desktop, a laptop, and the like.

The producer terminal 400 may be a terminal of a producer using a web page, an app page, a program, or an application related to mileage service for an end consumer of the blockchain-based producer. In addition, the producer terminal 400 may request a mileage identification code issuance to the mileage service providing server 300, and may receive and print a mileage identification code in response thereto. Accordingly, the producer can sell the mileage identification code in the product or by inserting a printed card or the like offline, and the consumer can read or scan the mileage identification code in the purchased product.

Here, the producer terminal 400 may be implemented as a computer that can be connected to a server or a terminal in a remote place through a network. Here, the computer may include, for example, a navigation, a laptop equipped with a web browser, a desktop, a laptop, and the like. In this case, the producer terminal 400 may be implemented as a terminal that can be connected to a server or terminal in a remote place through a network. The producer terminal 400 is, for example, a wireless communication device that ensures portability and mobility, and includes navigation, personal communication system (PCS), global system for mobile communications (GSM), personal digital cellular (PDC), and personal health (PHS). Handyphone System (PDA), Personal Digital Assistant (PDA), International Mobile Telecommunication (IMT) -2000, Code Division Multiple Access (CDMA) -2000, W-Code Division Multiple Access (W-CDMA), Wireless Broadband Internet (WBRO) terminal, All types of handheld based wireless communication devices such as smartphones, smartpads, tablet PCs, and the like may be included.

FIG. 2 is a block diagram illustrating a mileage service providing server included in the system of FIG. 1. FIG. 3 is a diagram illustrating a mileage service for an end consumer of a blockchain-based producer according to an embodiment of the present invention. It is a figure for demonstrating an example.

Referring to FIG. 2, the mileage service providing server 300 may include a receiver 310, a transmitter 320, a transfer unit 330, a transfer unit 340, and a marketing unit 350.

The mileage service providing server 300 according to an embodiment of the present invention or another server (not shown) operating in conjunction with at least one consumer terminal 100, and the producer terminal 400, the final consumer of the blockchain-based producer When transmitting a mileage service application, program, app page, web page, etc. for at least one consumer terminal 100, and the producer terminal 400, the mileage service application, program for the end consumer of the blockchain-based producer Install, open app pages, web pages, and more. In addition, the service program may be driven in the at least one consumer terminal 100 and the producer terminal 400 using a script executed in a web browser. Here, the web browser is a program that enables the use of the World Wide Web (WWW) service, and refers to a program that receives and displays hypertext described in HTML (hyper text mark-up language), for example, Netscape. , Explorer, chrome and the like. In addition, an application means an application on a terminal, and includes, for example, an app running on a mobile terminal (smartphone).

Referring to FIG. 2, the receiving unit 310 may receive, from at least one producer terminal 400, issuance request information including a quantity of mileage identification codes to be included in a product, a type of a product, and a mileage amount for each kind of a product. Can be. For example, suppose that producer A produces corn tea, lemongrass tea, and green tea, and each price is 10,000 won, 20,000 won, and 30,000 won. At this time, the producer wants to put one mileage identification code in each car, and if each quantity is 10, 20, 30, corn tea-10-10,000 won-10%, lemongrass tea-20- When the producer sets and transmits a type, quantity, price, mileage amount, etc., such as 20,000 won-5% and green tea-300,000-30,000 won-1%, the receiver 310 may receive and store the same.

The transmitter 320 may transmit the issued mileage identification code to the at least one producer terminal 400 based on the received issue request information. In this case, the mileage identification code may include all from one-dimensional code to three-dimensional code. Conventional bar codes include linear (one-dimensional) barcodes, as well as matrix (two-dimensional) codes, and any available code or tag, such as RFID or NFC, can be included. In this case, the identification code may include text, an image, and a video such as an identification code.

The transfer unit 330 corresponds to the mileage amount of the mileage identification code to the account of the at least one consumer terminal 100 when a purchase event occurs in which the at least one consumer terminal 100 reads or scans the mileage identification code. You can transfer coins. For example, the mileage amount and coin may be converted in a one-to-one correspondence, but the present invention is not limited thereto.

The transmission unit 340 may include the type and quantity of products purchased by the at least one consumer from the mileage identification code read or scanned by the at least one consumer terminal 100, and the consumer information of the at least one consumer. ) Can be sent. At this time, the printed identification code may be shipped offline, but since it is also possible to print the inside of the product directly from the producer terminal 400 or to package the printed material directly, the producer directly sends the mileage identification code online. You can also use it.

On the other hand, when reading or scanning the mileage identification code in the at least one consumer terminal 100, it is possible to receive the electronic wallet address information of the at least one consumer terminal 100 to perform a consumer registration. In addition, the at least one consumer terminal 100 is connected to the blockchain network, and stores the transactions occurring on the blockchain network in the same distributed ledger, respectively, the reading of the mileage identification code of the at least one consumer terminal 100 or When a coin is transferred to the account of at least one consumer terminal 100 through a scan, a block that has completed the proof of work may be added to the last position of the distributed ledger. In addition, the at least one consumer terminal 100 is connected to the blockchain network, the blockchain, at least one consumer terminal 100 of the transaction or mileage service providing server between the at least one consumer terminal 100 based on the smart contract Coin transfer to) can maintain the conditions and results of direct transactions in the distributed ledger to enable automated direct transactions.

In other words, blockchain can be composed of four basic technologies such as peer-to-peer network, encryption, distributed ledger, and distributed consensus, each of which is decentralized, which is the value of blockchain. It is complementary to maintain the integrity of data, and forms the basis of the blockchain operation mechanism. Smart contract, an application technology in the blockchain environment, can be used for automated transactions as a technology that provides integrity and reliability of the program's execution code and its results. The following describes how each technology is applied in the blockchain.

First of all, the connection and communication between participants in the blockchain is based on the P2P network. A P2P network is a network composed of equally-participants who are separated from the existing client-server method, and can be classified into structured P2P and unstructured P2P. In particular, unstructured P2P is a server-centered participant. It can be divided into a distributed P2P network based on a centralized method of network among them and a flooding algorithm of data. Blockchain can use flooding based unstructured P2P network for decentralized decentralized network, which is a characteristic and ideology of technology, and communication of P2P network is generally done through UDP, but blockchain can use TCP / IP. Accordingly, the participants in the blockchain maintain the IP of the participants who are physically closest to them, and use them to exchange messages and data.

The encryption technology used in the blockchain may be a merkle tree for verifying the integrity of data and a public key-based digital signature for non-repudiation of transactions. Merkle tree is a kind of hash tree where all non-leaf nodes have a hash of child nodes. That is, leaf nodes refer to data such as file or specific value, and parent node is composed of hash of this leaf node. The root node of the Merkle tree constructed in this way consists of the hash values of the data of all the leaf nodes constituting the tree, and the user can verify the forgery and corruption of the data only by verifying the hash of the root node. Therefore, the blockchain forms the basis of the merkle tree by inserting transactions and information between participants in the leaf nodes, and there are several hash functions that can be used when creating the parent node.In the blockchain, the merkle tree is used by using the SHA-256 function. Can be used.

Public key-based digital signature method is an encryption technology that enables secure communication between participants who do not share a secret key in advance, and is used in fields such as identity authentication.In the public key infrastructure, two keys are public key and secret key. A pair exists and the public key is known to all participants, but the corresponding secret key must be kept so that only its owner can know it. In this public key-based digital signature scheme, the blockchain can validate the transaction, and the user who wants to generate the transaction signs the transaction using his private key and blocks it with his corresponding public key. Send transaction information to the chain network. All other participants who receive this transaction information use the sender's public key to validate the transaction and confirm that the transaction was sent by the blockchain's participants.

Third, the distributed ledger is a repository of information that is replicated, shared and synchronized by consensus among the participants. Particularly, in order for distributed ledgers to be applied on a P2P network, participants need to agree on the records of distributed ledgers.In a blockchain, distributed ledgers record all transactions and information that occur through the verification process of the participants, and all participants maintain the same information. do. When verifying a transaction or information, first check the connectivity with the information already recorded in the distributed ledger maintained by each participant, and after agreement between the participants, only legal transactions or information are stored in the distributed ledger of the blockchain. When storing transactions or information, they are accumulated for a certain period of time and stored in units called blocks, and stored in a distributed ledger with connectivity between the blocks, thereby providing a basis for integrity integrity.

Fourth, distributed consensus is a protocol that derives agreement on specific data values between processes or agents in order to achieve overall system reliability when there are defective processes in distributed computing and multi-agent systems. The distributed consensus protocol for this has the following characteristics. First, validity means that if all the correct processes proposed the same data, all processes made a decision (valid, invalid) on the proposed data, and integrity, if all the correct processes adopted one data, Data is data suggested by another process. And agreement means that all valid processes must agree on what data, and termination means that all valid processes must decide on what data.

In the blockchain, we design the distributed consensus protocol as above and draw consensus among participants on the transactions or information that occur. This is because only suitable transactions or information are maintained on the blockchain after consensus, and a distributed consensus protocol called proof-of-work can be used. This proof-of-work protocol is a protocol that derives consensus on the block information between participants by working with the transaction and data to be stored as a block and finding the specific hash value by trial and error using SHA-256 hash function. . In addition, a voting-based consensus algorithm called Proof-ofstake may be used, or based on such Proofof-Stake (DPoS), Delegated Proof-of-Stake, or PBFT (Practical). A consensus algorithm such as Tendermint based on Byzantine Fault Tolerance may be used.

Finally, smart contracts are computer transaction protocols that enforce contract terms, while minimizing brokers for trust in transactions, while meeting contract terms and minimizing malicious exceptions, blockchain supports brokering by supporting such smart contracts. Or, it enables automated direct transactions between trading partners without a central authority, and ensures the reliability and integrity of transaction information by maintaining both the terms and results in a distributed ledger. In other words, the user can program the protocol smart contract containing the desired condition and store it in the blockchain. If the specific condition is satisfied, the smart contract is verified and executed by other blockchain participants. Execution results are again stored in the blockchain to ensure the integrity and reliability of the information on the transaction results.

The marketing unit 350 may include a type and quantity of products purchased by at least one consumer from a mileage identification code read or scanned by the at least one consumer terminal 100 in the delivery unit 340, and at least one consumer of the consumer. When transmitting information to the producer terminal 400, the collected consumer information may be stored in parallel and distributed raw data (Raw Data). The marketing unit 350 may refine unstructured data, structured data, and semi-structured data included in the stored row data, and perform preprocessing including classification into metadata. have. In addition, the marketer 350 may analyze the preprocessed data including data mining and visualize and output the analyzed data. By analyzing the data of the purchaser and providing it to the producers, the producers can share marketing information that has been monopolized by the retail industry, and they can develop activities by identifying target audiences.

At this time, the data mining classifies the data based on similarity without class information or class information that predicts a new class of data by learning a training data set in which a class is known by searching for an intrinsic relationship between preprocessed data. Clustering).

Hereinafter, an operation process according to the configuration of the mileage service providing server of FIG. 2 described above will be described in detail with reference to FIG. 3. However, the embodiment is only any one of various embodiments of the present invention, but is not limited thereto.

Referring to FIG. 3, in order to (a) trade a coin corresponding to a mileage amount using a blockchain network, (b) the mileage service providing server 300 may supply a quantity of products from at least one producer terminal 400. Receives, the type, the amount, and issues a mileage identification code corresponding to the transmission to at least one producer terminal (400).

And (c) after the consumer purchases the product, and (d) scans the mileage identification code included therein, the at least one consumer terminal 100 accesses the distributed application, program or page and the like. When (e) is coined, the coin corresponding to the mileage amount is transferred to the electronic wallet, and the distributed ledger of the new node is synchronized.

(f) In addition, when a coin is traded between consumers, the transaction is completed through verification, encryption, and synchronization, and at this time, a smart contract can be used.

2 and 3 do not describe the method for providing the mileage service to the end consumer of the blockchain-based producers described above with respect to the method for providing mileage service to the end consumer of the blockchain-based producers through FIG. Since it can be easily inferred from the same or described content as the content will be omitted.

FIG. 4 is a diagram illustrating a process of transmitting and receiving data between components included in a mileage service providing system for an end consumer of a blockchain-based producer of FIG. 1 according to an embodiment of the present invention. Hereinafter, an example of a process in which data is transmitted and received between each component will be described with reference to FIG. 4, but the present disclosure is not limited to the above-described embodiments, and is illustrated in FIG. 4 according to the various embodiments described above. It is apparent to those skilled in the art that the process of transmitting and receiving data may be changed.

Referring to FIG. 4, when the mileage service providing server 300 receives a request for issuing a mileage identification code from the producer terminal 400 (S4100), it maps and stores information such as quantity, type, and producer included therein (S4200). ), Generates an identification code to contain such information (S4300), and transmits it to the producer terminal 400 (S4400).

On the other hand, when the consumer terminal 100 recognizes the mileage identification code included in the goods purchased by scanning or reading (S4600), access to the page mapped to the information about this (S4610), the mileage service providing server 300 To extract the information of the consumer, the type of product, the producer (S4710) to pay the mileage amount to the electronic wallet or account of the consumer terminal 100, synchronize the blockchain ledger (S4800), accumulate the consumer information big data To build (S4810). In addition, the mileage service providing server 300 transmits the accumulated data to the producer terminal 400 (S4820), and if a transaction occurs in the consumer terminal 100 (S4900), the process may be completed in the blockchain. Proceed to (S4910), if the transaction is completed (S4920) to synchronize the books.

The order between the above-described steps S4100 to S4920 is merely an example, and the present invention is not limited thereto. That is, the order between the above-described steps S4100 to S4920 may be mutually changed, and some of the steps may be executed or deleted at the same time.

As described above with respect to the method for providing the mileage service for the end consumer of the blockchain-based producer of FIG. 4, the method for providing the mileage service for the end consumer of the blockchain-based producer is described above with reference to FIGS. 1 to 3. Since it can be easily inferred from the same or described content as the content will be omitted.

5 is a flowchart illustrating a method of providing a mileage service for an end consumer of a blockchain-based producer according to an embodiment of the present invention. Referring to FIG. 5, the mileage service providing server receives, from at least one producer terminal, issuance request information including a quantity of mileage identification codes to be included in a product, a kind of a product, and a mileage amount for each kind of a product (S5100). .

The mileage service providing server transmits the issued mileage identification code to the at least one producer terminal based on the received issuance request information (S5200), and the purchase event of reading or scanning the mileage identification code in the at least one consumer terminal. If occurs, transfer the coin corresponding to the mileage amount of the mileage identification code to the account of the at least one consumer terminal (S5300).

Further, the mileage service providing server transmits the type and quantity of products purchased by the at least one consumer and the consumer information of the at least one consumer from the mileage identification code read or scanned by the at least one consumer terminal to the producer terminal ( S5400).

The matters not described with respect to the method of providing the mileage service to the end consumer of the blockchain-based producer of FIG. 5 are described above with reference to the method of providing the mileage service to the end consumer of the blockchain-based producer through FIGS. 1 to 4. Since it can be easily inferred from the same or described content as the content will be omitted.

The method for providing mileage services to the end consumer of a blockchain-based producer according to an embodiment described with reference to FIG. 5 is in the form of a recording medium including instructions executable by a computer, such as an application or a program module executed by a computer. It can also be implemented. Computer readable media can be any available media that can be accessed by a computer and includes both volatile and nonvolatile media, removable and non-removable media. In addition, computer readable media may include all computer storage media. Computer storage media includes both volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data.

The method for providing mileage service to an end consumer of a blockchain-based producer according to an embodiment of the present invention described above may include an application basically installed in a terminal (this may include a program included in a platform or an operating system basically mounted in the terminal). The application may be executed by an application (ie, a program) directly installed on the master terminal by an application providing server, such as an application store server, an application, or a web server associated with the corresponding service. In this sense, the above-described method for providing mileage service to the end consumer of the blockchain-based producer according to the embodiment of the present invention is implemented as an application (ie, a program) installed on the terminal or directly installed by the user, and Or a computer readable recording medium.

The foregoing description of the present invention is intended for illustration, and it will be understood by those skilled in the art that the present invention may be easily modified in other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is shown by the following claims rather than the above description, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention. do.

Claims (7)

In the mileage service providing server running on a mileage service providing server,
Receiving issuing request information including a quantity of a mileage identification code to be included in a product, a type of the product, and a mileage amount for each type of the product from at least one producer terminal;
Transmitting the issued mileage identification code to the at least one producer terminal based on the received issue request information;
Transferring a coin corresponding to a mileage amount of the mileage identification code to an account of the at least one consumer terminal when a purchase event for reading or scanning the mileage identification code occurs in at least one consumer terminal; And
Transmitting the type and quantity of products purchased by the at least one consumer and the consumer information of the at least one consumer from the mileage identification code read or scanned by the at least one consumer terminal to the producer terminal;
Including,
Transmitting the type and quantity of products purchased by the at least one consumer and the consumer information of the at least one consumer from the mileage identification code read or scanned by the at least one consumer terminal to the producer terminal, the collection Storing the stored consumer information in parallel and distributed with raw data, refining unstructured data, structured data, and semi-structured data included in the stored raw data; Performing preprocessing including classification into metadata, analyzing the preprocessed data including data mining, and visualizing and outputting the analyzed data. Data mining explores the inherent relationships between the preprocessed data and known classes To study the relevant data set involves performing clustering (Clustering) to group the data by similarity without classification (Classification) or class information to predict the class of new data,
When the at least one consumer terminal reads or scans the mileage identification code, when receiving the electronic wallet address information of the at least one consumer terminal to perform consumer registration, and when registering the at least one consumer terminal Update a blockchain network by creating a node corresponding to the at least one consumer terminal,
The at least one consumer terminal is connected to a blockchain network, and the blockchain is configured to transfer a transaction between the at least one consumer terminal or a coin transfer to the at least one consumer terminal of the mileage service providing server based on a smart contract. And maintaining the conditions and results of the direct transaction in a distributed ledger so as to enable automated direct transaction.
delete The method of claim 1,
The at least one consumer terminal is connected to a blockchain network, and stores transactions occurring on the blockchain network in the same distributed ledger, respectively, and through reading or scanning of the mileage identification code of the at least one consumer terminal. If the coin is transferred to the account of at least one consumer terminal, adding a block that has completed the proof of work in the last position of the distributed ledger, blockchain-based producers mileage service providing method for the end consumer.
delete The method of claim 1,
The at least one consumer terminal is connected to a blockchain network, the blockchain comprising a structured P2P (unstructured P2P) and unstructured P2P (mileage service for the end consumer of blockchain-based producers How to Provide.
delete The method of claim 1,
In the case where a purchase event occurs in which the at least one consumer terminal reads or scans the mileage identification code, after transferring a coin corresponding to the mileage amount of the mileage identification code to the account of the at least one consumer terminal,
When a coin transaction occurs between the at least one consumer terminal, executing and verifying a distributed consensus protocol including validity, integrity, agreement, and termination of the coin transaction;
Encrypting the verified transaction through a data integrity verification and transaction nonrepudiation algorithm;
Replicating, sharing and synchronizing the transactions verified and encrypted with the distributed consensus protocol to distributed books on a P2P network;
Further comprising, the mileage service providing method for the end consumer of the blockchain-based producer.

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