KR102538007B1 - Smart order platform system and platform provision method using block chain - Google Patents

Abstract

The present invention relates to a smart order platform system using a block chain.
In the present invention, when smart order blockchain data is received, the smart order blockchain data is authenticated, the received smart order blockchain data is distributed and stored in a plurality of nodes, and when a smart order service is requested, the smart order blockchain data is stored. A block chain mainnet that provides distributed and stored smart order block chain data after authenticating the requester through a plurality of distributed and stored nodes; An API is provided to transmit/receive smart order data with an external terminal, and when smart order data is received from an external terminal, the smart order data is delivered to be distributed and stored on the blockchain mainnet, and stored in a distributed manner on the blockchain mainnet. a web server that transmits the received smart order data to an external terminal when smart order data is received; And when the smart order data is received from the web server, the received smart order data is converted into smart order blockchain data so that it can be distributed and stored on the blockchain main net, delivered to the blockchain main net, and distributed to the blockchain main net. When the stored smart order blockchain data is received, it includes an MSA server that performs preprocessing and delivers the smart order data to the web server.

Description

Smart order platform system and platform provision method using block chain}

The present invention relates to a smart order platform system, and more particularly, to provide a smart order service using a simple payment, and to utilize smart order data generated to provide a smart order platform system using a blockchain that can very easily accommodate various industries. It is about the order platform system.

In general, a smart order service is a service that allows an individual to order products or food from a company through a smartphone, and is mainly performed by large companies.

In providing such smart order service, the reason why it is difficult for small business owners to provide smart order service is because of security reasons that it is difficult to manage personal information in providing smart order service and lack of capital due to the high cost of implementing the smart order service. In the case of small businesses, it was difficult to introduce the smart order service.

In addition, since the conventional smart order platform system is a centralized structure in which all access rights to data are structured by service providers, it lacks reliability such as loss of data in the event of hacking, and cyber security due to the centralized database server structure. There is a problem that damage increases rapidly when attacking.

The present invention is to solve the conventional problems, and to provide a smart order platform system using a block chain that increases the reusability of configuration modules or components and facilitates maintenance when developing a smart order service application.

Another object of the present invention is to provide core elements of smart order services by industry by using blockchain technology to ensure integrity, and to process big data and easily expand by using smart order data generated during smart order services. It is to provide a smart order platform system using blockchain.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve the above object, the smart order platform system using blockchain according to an embodiment of the present invention, when smart order blockchain data is received, authenticates the smart order blockchain data and then converts the received smart order blockchain data. A blockchain mainnet that is distributed and stored in a plurality of nodes and provides the distributed and stored smart order blockchain data after authenticating the requestor through a plurality of nodes that distribute and store the smart order blockchain data when requesting a smart order service; An API is provided to transmit/receive the smart order data with an external terminal, and when smart order data is received from an external terminal, the smart order data is delivered to be distributed and stored in the blockchain mainnet, and distributed to the blockchain mainnet. a web server that transmits the received smart order data to the external terminal when the stored smart order data is received; And when the smart order data is received from the web server, the received smart order data is converted into smart order blockchain data so that it can be distributed and stored in the blockchain main net and delivered to the blockchain main net, When the smart order blockchain data distributed and stored in the net is received, it includes a micro service architecture (MSA) server that performs preprocessing and delivers the smart order data to the web server.

An embodiment of the present invention further includes a personal information database for storing sensitive information of smart order service providers and users included in smart order data, and the MSA server, when the smart order data is received from the web server, , Sensitive information included in smart order data can be separated and stored in the personal information database, and the remaining separated smart order data can be converted into smart order blockchain data and stored in the blockchain mainnet.

The smart order data may include one or more of company sensitive information and personal sensitive information.

The smart order data may include one or more of affiliate store service information, affiliate store identification information, and customer identification information necessary for the smart order service.

The smart order blockchain data stored in the blockchain mainnet includes a header including version information, previous block hash information, Merkle loot information, and creation time information ( Header), the maximum number of transactions (MaxMessageCount), and a body including a plurality of transaction information.

The blockchain mainnet can be linked to a plurality of DApps having nodes that distribute and store the smart order blockchain data including affiliate store service information.

When smart order data including smart order selection information is received from the web server, the MSA server requests smart order blockchain data corresponding to the smart order selection information from the blockchain mainnet, and the smart order blockchain data After verifying the affiliate using the nodes of the blockchain mainnet that are distributed and storing , requesting the smart order blockchain data to the DApp corresponding to the verified affiliate information, and after the affiliate information is authenticated by the DApp The corresponding smart order blockchain data distributed and stored in a plurality of nodes of the DApp can be received, and the received smart order blockchain data can be pre-processed and transmitted to the web server.

A method for providing a smart order platform using a blockchain according to an embodiment of the present invention includes the steps of a corporate terminal accessing a blockchain mainnet through an MSA server and requesting creation of a smart order platform; responding to the enterprise terminal through the MSA server after the blockchain mainnet authenticates the information of the enterprise terminal that has requested the smart order platform through a plurality of nodes; After the MSA server confirms the authentication of the enterprise terminal through the blockchain mainnet, distributing and storing smart order blockchain data necessary for creating a smart order platform in the blockchain mainnet; requesting DApp required information including affiliate store information to the blockchain mainnet so that the enterprise terminal authenticated through the blockchain mainnet creates a DApp linked to the blockchain mainnet; The blockchain mainnet responding to the enterprise terminal with mainnet access information and user authority information; The enterprise terminal requesting the MSA server to create a DApp that can distribute and store smart order blockchain data required for smart order service; and generating, by the MSA server, an affiliated store management DApp that manages smart order blockchain data.

In the present invention, after an affiliated store management DApp that distributes and stores smart order blockchain data of the enterprise terminal is created, the enterprise terminal requests access to the affiliated store management DApp from the MSA server; Requesting a DApp platform to the affiliated store management DApp where the MSA server was created; responding to the MSA server for the company authentication after the affiliated store management DApp authenticates the company information provided through the company terminal; The MSA server, which has completed corporate authentication, converts smart order data including DApp platform request information from the corporate terminal into smart order blockchain data and distributes and stores or modifies it in the affiliated store management DApp; and responding mainnet data to the blockchain mainnet by the affiliated store management DApp.

In addition, in the present invention, after the affiliated store management DApp is created by the enterprise terminal, the affiliated store terminal managed through the blockchain mainnet accesses the web server and requests affiliated store service data to the web server for smart order registration to check whether the DApp is registered; If the affiliated store service data is not stored in the DApp, the affiliated store terminal transmits new smart order data including affiliated store service information to the MSA server through the web server to provide the smart order service; the MSA server converting the new smart order data transmitted through the web server into smart order blockchain data and distributing and storing the previously created affiliate store management DApp; and distributing and storing smart order blockchain data including the affiliated store identification information being distributed and stored by the affiliated store management DApp in the blockchain mainnet.

The smart order blockchain data includes at least one of affiliate store information, affiliate store location information, and affiliate store advertisement information.

The smart order blockchain data stored in the blockchain mainnet includes information for managing one or more affiliates of affiliated store management company information, affiliated store industry type information, and affiliated store identification information.

The present invention includes the steps of the customer terminal registered for the smart order service accessing the web server to use the smart order service and requesting the smart order service; requesting, by the web server, affiliate store service information necessary for a smart order service from the MSA server; The MSA server requesting affiliated store service information necessary for smart order service from the blockchain mainnet; Authenticating member store identification information required for the smart order service requested by the web server by the blockchain mainnet; If the affiliated store identification information is authenticated, requesting the affiliated store management DApp for affiliated store service information corresponding to the affiliated store identification information authenticated by the blockchain mainnet; The affiliated store management DApp forwarding smart order blockchain data including affiliated store service information that is distributed and stored in each node to the MSA server; and the MSA server preprocessing the delivered smart order blockchain data including the affiliated store service information into smart order data, and then responding the preprocessed smart order data including the affiliated store service information to the customer terminal.

The present invention includes the steps of a customer terminal desiring to receive a smart order service accessing the web server and subscribing to the smart order service; requesting, by the web server, the MSA server to subscribe to the smart order service; and separating, by the MSA server, personal information from information of a customer who has requested service subscription and storing the information in a personal information database.

The present invention provides a smart order service GUI to the customer terminal when the affiliated store service information is responded to by the customer terminal; selecting, by the customer terminal, a smart order service including a payment method for the customer; requesting customer information from the MSA server after the web server pays for the corresponding menu; When the MSA server requests customer information from the personal information database and the customer information of the customer is delivered, the delivered customer information is de-identified and the smart order blockchain data including the smart order payment history information is transferred to the blockchain main Distributed storage on the net.

According to an embodiment of the present invention, there is an effect of ensuring transparency of data providing a smart order service by using a block chain and ensuring publicity of smart order service operation.

In addition, according to an embodiment of the present invention, embezzlement and defrauding through false documentary evidence and transaction details can be prevented in advance, rapid detection is possible, and cost competitiveness increases and derivative services can be sought according to the establishment of the smart order platform It has the effect of increasing the competitiveness of its own platform technology.

1 is a block diagram for explaining a smart order platform system using a block chain according to the present invention.
2 is a reference diagram for explaining a hash block used in a blockchain mainnet in an embodiment of the present invention.
3 is a block diagram illustrating a smart order platform system using a block chain according to another embodiment of the present invention.
4 is a signal flow diagram for explaining a method of generating a DApp in a smart order platform system using a blockchain in an embodiment of the present invention.
5 is a signal flow diagram for explaining a method of registering and modifying an affiliated store in a method of providing a smart order platform using a block chain according to an embodiment of the present invention.
6 is a signal flow diagram for explaining a method of performing a smart order service in a method of providing a smart order platform using a block chain according to an embodiment of the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims. Meanwhile, terms used in this specification are for describing the embodiments and are not intended to limit the present invention. In this specification, singular forms also include plural forms unless specifically stated otherwise in a phrase. As used herein, "comprises" and/or "comprising" means that a stated component, step, operation, and/or element is the presence of one or more other components, steps, operations, and/or elements. or do not rule out additions.

1 is a block diagram for explaining a smart order platform system using a block chain according to the present invention.

As shown in FIG. 1, the smart order platform system according to an embodiment of the present invention includes a web server 100, an MSA server 200, a blockchain mainnet 300 and a personal information database 400. .

The web server 100 has an API to transmit/receive smart order data with external terminals such as enterprise terminals, affiliated store terminals, and customer terminals, and when smart order data is received from external terminals, the blockchain mainnet 300 The smart order data is transferred to the MSA server 200 for distributed storage. Here, the smart order data may include one or more of company sensitive information and individual sensitive information, and may include one or more of affiliated store service information, affiliated store identification information, and customer identification information necessary for the smart order service. Here, the affiliate store service information may include one or more of product information, product price information, and review information.

And when the web server 100 receives smart order data distributed and stored in the blockchain mainnet 300, it delivers the received smart order data to the external terminal. If the external terminal selects the smart order service (food delivery), the web server 100 provides a payment function. In general, it is preferable that the web server 100 interoperates with an external payment company.

When smart order data is received from the web server 100, the MSA (Micro service Architecture) server 200 transforms the received smart order data into smart order blockchain data so that it can be distributed and stored in the blockchain mainnet 300. It is converted and delivered to the blockchain mainnet (300).

In addition, when the MSA server 200 receives the smart order blockchain data distributed and stored in the blockchain mainnet 300, it pre-processes the smart order data and delivers it to the web server 100.

When smart order blockchain data is received, the blockchain mainnet 300 authenticates the smart order blockchain data through a plurality of nodes, and then distributes and stores the received smart order blockchain data to a plurality of nodes.

In addition, the blockchain mainnet 300 authenticates the blockchain data through a plurality of nodes that distribute and store the smart order blockchain data when requesting the smart order service, and then transmits the distributed smart order blockchain data to the MSA server 200. provided to

Blockchain mainnet 300 in one embodiment of the present invention may be implemented through Hyperledger Fabric, but is not limited thereto.

The blockchain mainnet 300 is a system in which users participating in the network directly verify and agree on data to distribute and store data, and users can directly transact without a central management authority. Blockchain not only guarantees the reliability of data because it is difficult to forge or falsify transactions, but also guarantees the transparency and integrity of data because all users can view it by having the same blockchain ledger.

These blockchain networks are divided into public blockchain networks and private blockchain networks. In a public blockchain network, all data is open and anyone can participate in the network to verify data and become a node that can create a block. Currently, Bitcoin and Ethereum are made up of public blockchain networks.

On the other hand, the private blockchain network was developed for enterprises and is also called private blockchain, closed blockchain, permissioned blockchain, corporate blockchain, or enterprise blockchain, and transaction details and actions other than authorized participants Not shared and untraceable.

In addition, in order to participate in a private blockchain network, only participants authorized by one subject can participate and create a block, and a representative example of a private blockchain is Hyperledger Fabric.

In the Hyperledger Fabric, only authorized participants can participate in the blockchain network, organize organizations within the network, and share different ledgers as a logical group (Channel).

In Hyperledger, when the MSA server 200, which is a client, submits a proposal to the endorser, the endorser executes authentication, and when the endorser responds to the client with an approval, the client delivers Tx information to the orderer, and the orderer sends the orderer a batch according to the agreement. Transaction authentication can be performed by ordering transactions (Tx) to multiple peers and checking whether the guarantee policy for all transactions is correct.

At this time, the peer checks the version information of the database and block transactions in the mainnet, the peer updates the database with the correct write-set for all transactions in the block, and Hyperledger generates one transaction, An agreement process is required until this is stored in a separate database.

Representative consensus methods include PoW, PoS, and DPOS. Proof-of work is a method in which all miners hash with their own random numbers to reach a hash value of a specific difficulty level and agree with the block created by the node that found the value first. By adjusting the difficulty level, a specific consensus time is maintained. In Proof-of-Stake, you have the right to vote in proportion to the amount of coins you hold, and a block is created by consensus as a whole, and in Delegated Proof-of-Stake, a specific representative As they vote, the consensus time is shortened compared to PoS.

On the other hand, in one embodiment of the present invention, a personal information database 400 for storing sensitive information of smart order service providers and users included in smart order data may be further included. The personal information database stores sensitive information of companies and users that provide smart order services.

Accordingly, when the smart order data is received from the web server 100, the MSA server 200 checks whether sensitive information is included in the received smart order data.

If sensitive information is included in the smart order data, the MSA server 200 separates the sensitive information included in the smart order data and stores it in the personal information database 400.

Then, the MSA server 200 converts the separated remaining smart order data into smart order blockchain data and distributes and stores it in the blockchain mainnet 300.

Meanwhile, as shown in FIG. 2, the smart order blockchain data stored in the blockchain mainnet 300 includes version information, previous block hash information, and Merkle root information. , It is a hash block composed of a header including creation time information, a maximum number of transactions (MaxMessageCount), and a body including a plurality of transaction information. Here, the transaction information includes a plurality of transaction information such as industry type information, provider company information, and payment history information. In addition, the blockchain mainnet 300 can distribute and store these hash blocks in nodes and verify them.

When the web server 100 receives smart order selection information selected by the user from the customer terminal 600, the web server 100 transfers the received smart order selection information to the MSA server 200, and from the MSA server 200, the smart order selection information. When smart order data corresponding to the selection information is received, the received smart order data is converted and provided to the customer terminal 600 to perform the smart order service. At this time, it is preferable that the smart order selection information includes information about the company selected by the user and product information being sold by the company.

When the smart order selection information is received from the web server 100, the MSA server 200 requests smart order data corresponding to the smart order selection information from the blockchain mainnet 300, and distributes the smart order data. It is verified using the nodes of the blockchain mainnet 300 that are stored, and the verified smart order data is received from the blockchain mainnet 300, and the received smart order data is transferred to the web server 100. forward to Here, the classification information preferably includes one or more of industry information and company information (mainnet information).

Further, the transaction information may include one or more of smart order member store information and smart order result information.

3 is a block diagram illustrating a smart order platform system using a block chain according to another embodiment of the present invention.

As shown in FIG. 3, a web server 100, an MSA server 200, and a blockchain mainnet 200 of an embodiment are provided, but a DApp 310 linked to the blockchain mainnet 300 is further provided. include In another embodiment of the present invention, the description of the configuration of one embodiment having common characteristics will be omitted.

As such, the blockchain mainnet 300 in another embodiment of the present invention, as shown in FIG. (310).

Accordingly, when the smart order data is received from an external terminal through the web server 100, the MSA server 200 requests the smart order blockchain data to the blockchain mainnet 300 and distributes and stores the smart order blockchain data. The smart order blockchain data is authenticated using the nodes of the blockchain mainnet 300 being performed.

Subsequently, the MSA server 200 requests smart order blockchain data from the DApp 310 corresponding to the verified affiliated store information, and after the affiliated store information is authenticated by the DApp 310, a plurality of nodes of the DApp 310 Receives the smart order blockchain data that is stored in a distributed manner.

Thereafter, the MSA server 200 pre-processes the received smart order blockchain data into smart order data and transmits it to the web server 100.

Then, the web server 100 provides the smart order data to the customer terminal so that the customer can select the menu or product of the selected affiliated store, and the customer exposes the smart order service menu or product to the customer terminal to provide the smart order service can be provided.

When smart order blockchain data is received, the blockchain mainnet 300 authenticates the smart order blockchain data through a plurality of nodes, and distributes and stores the received smart order blockchain data to a plurality of nodes. Here, it is preferable that the smart order blockchain data stored in the blockchain mainnet 300 does not store actual affiliated store service information, but instead stores affiliated store identification information for authenticating the affiliated store.

In addition, the blockchain mainnet 300 authenticates the smart order blockchain data through a plurality of nodes that distribute and store the smart order blockchain data when requesting the smart order service, and then transfers the distributed and stored smart order blockchain data to the MSA server ( 200) is provided.

The DApp 310 has the same network structure as the blockchain mainnet 300 in one embodiment, interworks with the blockchain mainnet 300, and distributes and stores affiliated store service information in a plurality of nodes.

That is, the blockchain mainnet 300 in another embodiment of the present invention is preferably made of a private blockchain having a double chain structure.

As an example, the Dapp 310 stores affiliate store data (business information, affiliate information, affiliate store information modification history, affiliate contract history, affiliate store closure history, affiliate store closure history, affiliate expiration history, affiliate identification information (token), It consists of a merchant management DApp (business info) that preserves the business activities of merchants through entering, modifying, and deleting merchant information by constructing a DApp on the smart order platform mainnet. desirable.

Meanwhile, the DApp according to an embodiment of the present invention utilizes beacon IoT data (NFC tag, QR code, gateway server, table location information, terminal reception time, order processing information, affiliate store identification information, etc.) Beacon IoT DApp that assists the merchant's sales activities, such as providing information on table turnover and location of visiting customer tables by configuring a dApp in Contract revision history and information such as extension) to form a DApp on the smart order platform mainnet, affiliated store advertising DApp that assists merchants' sales activities, such as providing affiliated advertisements using NFT features, affiliated store environment data (gas leak Alarm, Fusecock blocker, gas meter) to construct a DApp on the smart order platform mainnet, and an energy DApp that assists the merchant's business activities by using the merchant's environmental information to assist in monitoring the environment occurring at the merchant DApps that provide various services may be further included.

The enterprise terminal 510 accesses the blockchain mainnet through the MSA server 200 (200) and authenticates the smart order platform requester through the blockchain mainnet (300). After the authentication of the smart order platform requestor is completed, the enterprise terminal 510 transmits the smart order platform requestor information to the MSA server 200, and the MSA server 200 converts the transmitted smart order platform requestor information to blockchain data. , and distributed and stored in the nodes of the blockchain mainnet 300.

The affiliated store terminal 500 is a terminal provided to affiliates that store, modify, and delete affiliated store information for providing the smart order service in the blockchain mainnet 300 or DApp 310. By the enterprise terminal 510, After the smart order platform is stored in the blockchain mainnet 300, it accesses the web server 100 to request affiliate data to check whether the affiliate store is registered, and if the affiliate store is not registered, the new affiliate data is sent to the web server ( 100), and if the affiliate store information is to be modified, the affiliate store modification data is transferred to the web server 100.

To this end, the affiliated store terminal 500 is provided with a first input interface for receiving company information and a second input interface for inputting, modifying, and deleting smart order data provided by the company.

To register the smart order service, a program or app for accessing the web server 100 is installed on the affiliated store terminal 500 . In this way, the affiliated store terminal 500 may use a computer, smartphone, tablet, etc. on which programs or apps can be installed.

When such an affiliated store terminal 500 accesses the web server 100 for smart order service registration, the web server 100 uses the RestAPI of the mainnet to receive affiliated store information and product information provided from the affiliated store terminal 500 Provided to the affiliated store terminal 500, and the affiliated store terminal 500 provides the affiliated store information and product information necessary for the smart order service to the web server 100 using the RestAPI of the mainnet provided by the web server 100 . Here, the affiliated store information may include business information, contract information, closure history, closure history, expiration history, and affiliated store identification information, and product information may include menu information, price information, and order processing that must be provided by the affiliated store to provide the smart order service Information and member store identification information may be included.

The customer terminal 600 is a terminal used by a user receiving the smart order service, and includes a first input interface for receiving user personal information for subscription, and smart order list information provided to the user to receive the smart order service after user registration. and a smart order processing interface for transmitting the smart order selected by the user.

4 is a signal flow diagram for explaining a method of generating a DApp in a method of providing a smart order platform using a blockchain in an embodiment of the present invention.

A method of building a smart order platform by building a blockchain as a service (Baas) of a corporate customer in a smart order platform system using a block chain according to an embodiment of the present invention will be described with reference to FIG. 4 .

First, in order to build a smart order platform for corporate customers, the corporate terminal 510 requests MSA server 200 to access the mainnet through an API (S410). (It is necessary to check whether it does not go through the web server 100)

Then, the MSA server 200 requests the smart order platform to the blockchain mainnet 300 (S420).

Accordingly, the blockchain mainnet 300 verifies (authenticates) the information of the requestor and then responds to the MSA server 200 for authentication (S430).

Then, the MSA server 200 can write or read blockchain data to the blockchain main net 300 after confirming the authentication of the enterprise terminal 510 through the blockchain main net 300 (S440).

In this way, the corporate terminal 510 authenticated by the blockchain mainnet 300 requests the blockchain mainnet 300 for DApp required information (yes required) to register the affiliate store information in the DEP 310 (S450), and the blockchain mainnet 300 responds with mainnet access information and user authority information to the enterprise terminal 510 (S460).

Thereafter, the enterprise terminal 510 requests the MSA server 200 to create a DApp capable of storing the data necessary for the smart order service (S471), and the MSA server 200 creates an affiliate management DApp that manages the smart order service data Create (S472). (It is necessary to check whether it is created simply by requesting the creation of a DApp)

Subsequently, the enterprise terminal 510 requests access to the affiliated store management DApp 310 through the API (S473). Then, the MSA server 200 requests the DApp platform to the created affiliated store management DApp 310 (S474).

Accordingly, the affiliated store management DApp 310 verifies (authenticates) the affiliated store information provided through the corporate terminal 510 (S475) and then responds to the MSA server 200 for affiliated store authentication (S476).

Thereafter, the MSA server 200 that has completed affiliate store authentication receives the DApp data from the enterprise terminal 510 and stores, modifies, or reads the created affiliate store management DApp 310 (S477).

Subsequently, the affiliate management DApp 310 responds to the mainnet data to the blockchain mainnet 300 (S478), and the blockchain mainnet 300 requests data necessary for the mainnet from the affiliate management DApp 310 It becomes (S478). Here, the mainnet data stored in the blockchain mainnet 300 by the DApp 310 includes member store identification information.

5 is a signal flow diagram for explaining a method of registering and modifying an affiliated store in a method of providing a smart order platform using a block chain according to an embodiment of the present invention.

As such, after the enterprise terminal 510 creates the affiliated store management DApp 310, as shown in FIG. 5, the affiliated store terminal 500 can store and manage smart order data in the affiliated store management DApp 310 there is.

Accordingly, when the affiliated store terminal 500 accesses the web server 100 for smart order management (S510), the web server 100 requests the affiliated store terminal 5000 for data (S520).

Thereafter, the affiliated store terminal 500 stores (transmits) the new smart order affiliated store data for providing the smart order service to the web server 100 (S530).

Then, the web server 100 transmits the smart order affiliated store data to the MSA server 200 (S540), and the MSA server 200 transmits the smart order affiliated store data transmitted through the web server 100 to the generated affiliated store management DApp. Distributed and stored in a plurality of nodes of (310) (S550). Here, the smart order affiliated store data preferably includes at least one of affiliated store information, affiliated store location information, and affiliated store advertisement information. At this time, the MSA server (4000) also stores the affiliate store data registration history in the affiliate store management DApp.

Thereafter, the affiliated store management DApp 310 stores the mainnet data to be stored in the blockchain mainnet 300 in the blockchain mainnet 300 (S560). Here, the mainnet data is preferably information for managing affiliated stores, such as affiliated store management company information, affiliated store type information, and affiliated store identification information.

If the affiliate store wants to modify smart order affiliate store data, the affiliate store terminal 500 connects to the web server 100 and transmits the smart order affiliate store modification data (S571).

Then, the web server 100 transfers the received smart order affiliate store modification data to the MSA server 200 (S572).

Accordingly, the MSA server 200 changes the smart order affiliate store data stored in the affiliate store management DApp 310 into smart order affiliate store modification data and also stores the affiliate store data modification history in the affiliate store management DApp 310 (S573). Here, the method of modifying the smart order affiliated store data can be used the same method as the method of the block chain mainnet.

Thereafter, the affiliated store management DApp 310 stores the mainnet data to be stored in the blockchain mainnet 300 in the blockchain mainnet 300 (S574). Here, the mainnet data stored in the blockchain mainnet 300 by the DApp 310 includes member store identification information.

In this way, the history of changes occurring in registration and modification is accumulated (transaction) and stored in a distributed manner in the nodes of the affiliated store management DApp 310.

6 is a signal flow diagram for explaining a method of performing a smart order service in a method of providing a smart order platform using a block chain according to an embodiment of the present invention.

Hereinafter, a process of registering and using a smart order service customer in a smart order platform system using a block chain according to an embodiment of the present invention will be described with reference to FIG. 6 .

The customer terminal 600 that wants to receive the smart order service downloads and installs a separate app or program so that it can access the web server 100 that provides the smart order service. In this embodiment, it is described as using a method of installing a separate app or program, but it can also be accessed using the existing web.

After accessing the web server 100, the customer terminal 600 subscribes to the smart order service (S601).

Then, the web server 100 requests the MSA server 200 to subscribe to the smart order service (S602), and the MSA server 200 separates the personal information from the information of the customer who requested the service subscription and stores the personal information database 400. stored in (S603).

In this way, when the customer terminal 600 registered for the smart order service accesses the web server 100 to use the smart order service (S610), the web server 100 provides the MSA server 200 with necessary information for the smart order service. Affiliate store information is requested (S620), and the MSA server 200 requests affiliate store information necessary for the smart order service from the blockchain mainnet 300 (S630). Here, affiliated store information required for the smart order service includes affiliated store identification information.

Then, the blockchain mainnet 300 authenticates the affiliate store identification information included in the affiliate store information required for the smart order service requested by the web server 100 (S640).

Thereafter, the blockchain mainnet 300, which has authenticated the affiliated store identification information transmitted from the web server 100, requests detailed information of the authenticated affiliated store from the affiliated store management DApp 310 (S650).

Then, the affiliate store management DApp 310 transmits the detailed information of the requested affiliate store distributed and stored in each node to the MSA server 200 (S660).

The transmitted detailed information of the affiliated store is preprocessed in the MSA server 200 (S670), and then the preprocessed detailed information of the affiliated store is returned to the customer terminal 600 (S680).

In this way, when the detailed information of the affiliated store is replied to the customer terminal 600, the customer terminal 600 is provided with a smart order service GUI so that the customer can perform the smart order service (S691). Here, the smart order service GUI includes menu information and payment method information for receiving the smart order service.

Thereafter, when the customer selects a menu (food) to receive the smart order service through the smart order service GUI and selects a payment method (S692), the web server 100 pays for the corresponding menu, and then the MSA server ( 200) to request customer information (S693).

Accordingly, the MSA server 200 requests customer information from the personal information database 400 (S694), and the personal information database 400 transmits the corresponding customer information requested for the smart order service to the MSA server 200 (S694). S695).

Then, the MSA server 200 de-identifies (S696) the delivered customer information and includes it in the smart order payment history information to distribute and store it in the nodes of the blockchain mainnet 300 (S696). S697).

Then, the web server 100 stores the log data of the customer requesting the smart order service in the personal information database 400 (S698).

In the above, the configuration of the present invention has been described in detail with reference to the accompanying drawings, but this is only an example, and various modifications and changes within the scope of the technical idea of the present invention to those skilled in the art to which the present invention belongs Of course this is possible. Therefore, the scope of protection of the present invention should not be limited to the above-described embodiments, but should be defined by the description of the claims below.

Claims (15)

delete delete delete delete delete delete delete A step of the enterprise terminal accessing the blockchain mainnet through the MSA server and requesting the creation of a smart order platform;
responding to the enterprise terminal through the MSA server after the blockchain mainnet authenticates the information of the enterprise terminal that has requested the smart order platform through a plurality of nodes;
After the MSA server confirms the authentication of the enterprise terminal through the blockchain mainnet, distributing and storing smart order blockchain data necessary for creating a smart order platform in the blockchain mainnet;
requesting DApp required information including affiliate store information to the blockchain mainnet so that the enterprise terminal authenticated through the blockchain mainnet creates a DApp linked to the blockchain mainnet;
The blockchain mainnet responding to the enterprise terminal with mainnet access information and user authority information;
The enterprise terminal requesting the MSA server to create a DApp that can distribute and store smart order blockchain data required for smart order service; and
A method of providing a smart order platform using a blockchain comprising the step of creating, by the MSA server, an affiliated store management DApp that manages smart order blockchain data.
According to claim 8,
After the affiliated store management DApp that distributes and stores the smart order blockchain data of the enterprise terminal is created, the enterprise terminal requests access to the affiliated store management DApp from the MSA server;
Requesting a DApp platform to the affiliated store management DApp where the MSA server was created;
responding to the MSA server for corporate authentication after the affiliated store management DApp authenticates corporate information provided through the corporate terminal;
The MSA server, which has completed corporate authentication, converts smart order data including DApp platform request information from the corporate terminal into smart order blockchain data and distributes and stores or modifies it in the affiliated store management DApp; and
A method of providing a smart order platform using a blockchain, comprising: responding mainnet data to the blockchain mainnet by the affiliated store management DApp.
According to claim 8,
After the affiliated store management DApp is created by the enterprise terminal, the affiliated store terminal managed through the blockchain mainnet accesses the web server and requests the affiliated store service data to the web server for smart order registration to determine whether to register in the DApp. confirmation step;
If the affiliated store service data is not stored in the DApp, the affiliated store terminal transmits new smart order data including affiliated store service information to the MSA server through a web server to provide the smart order service;
The MSA server converting the new smart order data transmitted through the web server into smart order blockchain data and distributing and storing it in the previously created affiliated store management DApp; and
A method of providing a smart order platform using a blockchain comprising: distributing and storing the smart order blockchain data including the affiliate identification information being distributed and stored by the affiliate management DApp in the blockchain mainnet.
According to claim 10,
In the smart order blockchain data,
A method of providing a smart order platform using a block chain, characterized in that the data includes at least one of affiliate store information, affiliate store location information, and affiliate store advertisement information.
According to claim 10,
In the smart order blockchain data stored in the blockchain mainnet,
A method of providing a smart order platform using a blockchain, characterized in that it includes information for managing one or more affiliates of affiliated store management company information, affiliated business type information, and affiliated store identification information.
According to claim 12,
Requesting the smart order service by accessing the web server in order to use the smart order service by a customer terminal registered for the smart order service;
requesting, by a web server, affiliate store service information necessary for a smart order service from the MSA server;
The MSA server requesting affiliated store service information necessary for smart order service from the blockchain mainnet;
Authenticating member store identification information required for the smart order service requested by the web server by the blockchain mainnet;
If the affiliated store identification information is authenticated, requesting the affiliated store management DApp for affiliated store service information corresponding to the affiliated store identification information authenticated by the blockchain mainnet;
The affiliated store management DApp forwarding smart order blockchain data including affiliated store service information that is distributed and stored in each node to the MSA server; and
The MSA server pre-processes the delivered smart order blockchain data including the merchant service information into smart order data, and then responds to the customer terminal with the smart order data including the pre-processed merchant service information. How to provide a smart order platform.
According to claim 13,
A customer terminal desiring to receive the smart order service connects to the web server and subscribes to the smart order service;
requesting, by the web server, the MSA server to subscribe to the smart order service; and
A method of providing a smart order platform using a blockchain, including the steps of the MSA server separating personal information from information of a customer who has requested service subscription and storing it in a personal information database;
According to claim 13,
providing a smart order service GUI to the customer terminal when the affiliated store service information is responded to by the customer terminal;
selecting, by a customer terminal, a smart order service including a payment method for the customer;
requesting customer information from the MSA server after the web server pays for the corresponding menu;
When the MSA server requests customer information from the personal information database and the customer information of the customer is delivered, the delivered customer information is de-identified and the smart order blockchain data including the smart order payment history information is transferred to the blockchain main A method of providing a smart order platform using a blockchain, including the step of distributing and storing on the net.

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