KR102151706B1 - Blood donation transfer system based on blockchain - Google Patents

Abstract

The present invention relates to a blood donation certificate transfer system based on a blockchain, which comprises: a transfer server providing blood donation certificate-related information including a blood donation certificate serial number and owner information from a blood information management system to a blockchain, registering changed blood donation certificate owner information and blood donation certificate transaction information and generating a block when blood donation certificate transfer is established in accordance with transaction between users, transferring the generated block to each node to verify and share data, and updating the changed blood donation certificate owner information and the blood donation certificate transaction information to the blood information management system and a blood information sharing system; and a database for storing data related to the blood donation certificate. According to the present invention, the blood donation certificate transfer system based on a blockchain is provided, such that a blood donation certificate can be simply transferred through a website or an application, thereby providing an effect of promoting donation and use of the blood donation certificate.

Description

Blockchain-based blood donation transfer system based on blockchain}

The present invention relates to a blood donation transfer system, and more particularly, to a blood donation transfer system using a block chain technology.

In general, the Korean Red Cross is an institution that leads blood supply. In order to stably supply blood to hospitals, it induces blood donation to general blood donors and provides a blood donation certificate proving that blood donation has been done to the donors. After blood donation is done, check the donor's blood for abnormalities, notify the donor of the test result, and store and use the correct blood.

Currently, donation and use of blood donation certificates can only be used by taking them in real form or physically transferring them. This transfer process is inefficient in transferring blood donations and activating donations. And blood donation certificates cannot be reissued due to the nature of securities. Due to these inconveniences, the rate of actually using blood donation is very low, around 10%.

The nature of the securities of a blood donation certificate means that the issued blood donation certificate is the only one in the world, guaranteeing the authenticity of the blood donation certificate. In view of the opinions of many practitioners, the inability to reissuance of blood donation certificates answered by the Korean Red Cross as a result of this is a view that the lack of an integrated computer network system of the Korean Red Cross blood management headquarters and medical institutions is the cause. In addition, the fact that blood donation has the characteristics of securities among the contents of the Blood Management Act is not defined.

In order for the existing system to reissue a blood donation certificate or further introduce an electronic blood donation certificate, when a blood donation certificate is submitted from a medical institution, a computer network that can check whether the submitted blood donation certificate is a previously used or lost blood donation certificate must be equipped. Currently, the blood donation certificate management in Korea is a part of the blood management business, and the serial number of the blood donation certificate is registered on the system, but it is only used for the purpose of confirming blood supply and demand management.

Therefore, in order to enable reissuance or electronicization and transfer of blood donation certificates, a system that can check and monitor the use of blood donation certificates in real time at all medical institutions is required, and performs electronic blood donation certificate transfer and usage monitoring functions, and is essential for personal medical information. We need a system that can enhance security.

Currently, related technologies using blood donation include the hackathon ABO BOX's electronic blood donation management service and China's electronic blood donation.

Hackathon ABO BOX is a service that manages blood donation certificates with a token called ABO Chain on the Ethereum platform.When blood is donated, a blood donation certificate is issued in the ABO BOX wallet, and the blood donation record is permanently stored. It is a service developed to be able to donate to individuals. However, ABO BOX is a system that does not realistically consider the state of blood donation certificate management in Korea, and has disadvantages that it cannot be linked with the current system, and it is impossible to check blood test records.

In addition, China's electronic blood donation is a service that uses facial recognition technology, and allows you to check where donated blood has been used, so that you can donate blood safely and conveniently. In addition, if a blood donor scans the QR code, an electronic blood donation certificate can be issued immediately, and can be received through free blood donation of Alipay's'Medical Health Platform'. However, there is a problem that the reliability of the electronic blood donation certificate itself is not resolved because the security problem against forgery/modification is not resolved, and there is no function of transferring/donating the blood donation certificate.

The aforementioned conventional blood donation-related services are simply applications that enable mobile use of services available on the web, and are not provided with transfer/donation functions, electronic blood donation certificate issuance and management, medical data security, etc. There is this.

Korean Patent Registration 10-1509051

The present invention is conceived to solve the above problems, transfers, uses, and monitors electronic blood donation certificates, and guarantees essential security for personal medical information with the confidentiality, integrity, and availability characteristics of the blockchain. The purpose of this is to provide a blockchain-based blood donation management system.

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

The blood donation transfer system of the present invention for achieving the above object brings the blood donation-related information including the blood donation serial number and owner information from the blood information management system to the blockchain, and when the blood donation transfer according to the transaction between users is established, this The changed blood donation certificate owner information and blood donation transaction details are registered on the blockchain and blocks are created, and the generated block is transmitted to each node to verify and share the data, and the changed blood donation certificate owner information and the blood donation transaction details information are transferred to blood information. It includes a transfer server updated on the management system and the blood information sharing system, and a database for storing the blood donation related information data.

The transfer server may provide a function of transferring blood donation between individuals or transferring blood donation to an institution by an individual.

The transfer server uploads a request for transfer of a personal blood donation certificate, which describes the contents of a user's desired transfer of a blood donation certificate through a user terminal possessed by a user (hereinafter referred to as'transferee'), and uploads the uploaded personal blood donation certificate transfer request list. Can be disclosed.

If there is an application that the transfer server wants to transfer to a request to transfer a personal blood donation certificate from the list of requests for transferring a personal blood donation card through a user terminal possessed by a user (hereinafter referred to as a'transferr'), the transferee is based on the blockchain. It can be processed so that the transfer of blood donation between the and the transferor is made.

If there is an application desired to be transferred, the transfer server may request and check whether the transferor has used a blood donation certificate to the blood information management system, and may perform a blood donation transfer process only when a blood donation certificate is not used.

The transfer server may provide a function of inquiring a blood donation transfer history including a blood donation history, a blood donation place, a use of a blood donation certificate, and blood donation transfer related information at the request of the user terminal.

The transfer server may provide a thank-you display function that displays a thank-you message to the transferor on the blood donation transfer history inquiry screen.

When the creation of the audit message in the audit display function is completed, the transfer server may transmit the created audit message to the terminal of the transferor.

The transfer server may provide a blood test result inquiry function capable of inquiring a blood test result at the time of blood donation.

According to the present invention, by proposing a block chain-based blood donation transfer system, blood donation can be easily transferred through a web site or application form, thereby promoting activation of donation and use of blood donation.

In addition, according to the present invention, since it can be transferred to an electronic blood donation rather than an actual blood donation, it prevents concerns about loss and damage of blood donation, increases the use rate of blood donation, and further promotes and encourages blood donation through simple transfer of blood donation. There is an effect that can form a social atmosphere.

In addition, according to the present invention, by being based on a block chain, due to the integrated management in the blockchain ecosystem, the inconvenience caused by the previous real blood donation management is improved, the time taken to transfer the blood donation is reduced, and the efficiency of blood donation management And there is an effect that can be improved accessibility.

1 is a block diagram showing the configuration of a block chain-based blood donation transfer system according to an embodiment of the present invention.
2 is a block diagram illustrating an operation flow of a block chain-based blood donation transfer system according to an embodiment of the present invention.
3 is a flowchart illustrating a transaction execution process in a block chain-based blood donation transfer system according to an embodiment of the present invention.
4 to 11 are screen examples of web pages provided by the blood donation transfer system according to an embodiment of the present invention.
12 is a schematic flowchart of transmission and reception of a security message for transferring a blood donation between a block chain server for transferring a blood donation and a terminal for transferring a blood donation.
13 is a schematic flowchart of transmission and reception of a blood donation certificate transfer security message between a blood information management server and a blood donation transfer block chain server.

In the present invention, various modifications may be made and various embodiments may be provided, and specific embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to a specific embodiment, it is to be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or combinations thereof described in the specification, but one or more other features. It is to be understood that the presence or addition of elements or numbers, steps, actions, components, parts, or combinations thereof, does not preclude in advance.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. Terms as defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

In addition, in the description with reference to the accompanying drawings, the same reference numerals are assigned to the same components regardless of the reference numerals, and redundant descriptions thereof will be omitted. In describing the present invention, when it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, a detailed description thereof will be omitted.

1 is a block diagram showing the configuration of a block chain-based blood donation transfer system according to an embodiment of the present invention, and FIG. 2 is a block diagram illustrating an operation flow of a block chain-based blood donation transfer system according to an embodiment of the present invention to be.

1 and 2, the blockchain-based blood donation transfer system of the present invention includes a transfer server 100 and a database (DB) 110.

The database 110 stores blood donation-related information data.

The transfer server 100 brings blood donation-related information including a blood donation certificate serial number and owner information from the blood information management system 20 to the blockchain. And, if the transfer of blood donation according to the transaction between users is established, the changed blood donation owner information and blood donation transaction details are registered on the blockchain, and a block is created, and the generated block is passed to each node to verify and share the data. do. In addition, the changed blood donation certificate owner information and blood donation transaction history information are updated on the blood information management system 20 and the blood information sharing system 30.

The transfer server 100 may provide a function of transferring blood donations between individuals or transferring blood donations between individuals to an institution.

In the present invention, the transfer server 100 is a personal blood donation transfer request that describes the contents of a user terminal possessed by an arbitrary user (hereinafter referred to as a'transferee'), and uploads it and uploads the uploaded individual. Publish a list of requests for transfer of blood donation certificates.

And, the transfer server 100, if there is an application for transferring a request to transfer a personal blood donation certificate from the list of personal blood donation transfer requests through a user terminal possessed by a user (hereinafter referred to as'transferr'), Based on this, the transfer of blood donation between the transferee and the transferee is processed.

At this time, if there is an application to be transferred, the transfer server 100 requests and checks whether the transferor has used a blood donation certificate to the blood information management system 20, and performs a blood donation transfer process only when a blood donation certificate is not used. do.

The transfer server 100 may provide a function of inquiring a blood donation transfer history, including a blood donation history, a blood donation place, a use of a blood donation certificate, and blood donation transfer-related information according to a request of a user terminal.

The transfer server 100 may provide a thank you display function that displays a thank you message to the transferor on the blood donation transfer history inquiry screen.

At this time, the transfer server 100 may transmit the created audit message to the transferor's terminal when the creation of the audit message is completed in the audit display function.

In the present invention, the transfer server 100 may provide a blood test result inquiry function capable of inquiring a blood test result at the time of blood donation.

In the present invention, it is possible to build a blood donation transfer system based on Hyperledger fabric among blockchain networks.

In the present invention, the user terminal 210 is a terminal possessed by a transferor or a transferee, and is a terminal capable of communicating in a wired or wireless manner through a wired or wireless communication network, and various types such as a desktop computer, a laptop computer, a smart phone, a mobile communication terminal, a tablet PC, etc. Can be implemented as

3 is a flowchart illustrating a transaction execution process in a block chain-based blood donation transfer system according to an embodiment of the present invention. 3 illustrates a process of performing a transaction in a hyperledger fabric-based blood donation transfer system.

Referring to FIG. 3, when a client requests a transaction for which a blood donation is to be transferred (S310), the application transmits the request to an endorsing peer (S320).

Then, the assurance peer verifies the transaction by executing a chaincode (S330).

And, the assurance peer delivers the verification result to the application (S340).

Then, the application checks whether the received verification result satisfies a predefined endorsing policy (S350), and if satisfied, submits a transaction to the orderer (S360).

In addition, the orderer performs an ordering service, which defines the order of transactions, generates blocks in order, and transmits them to all peers including the assurance peer and the committing peer (S370, S380). ).

And, all peers check whether the arriving block satisfies the guarantee policy, and check whether a transaction occurs in the ledger state.

In the present invention, the client node may be a user terminal of a transferor or a user terminal of a transferee, the guarantee peer may be a node included in the blood information management system, and the commiting peer may be a node included in the blood information sharing system.

In the present invention, the transfer server 100 provides a blood donation transfer service in the form of a web page that the user terminal 210 can access through the Internet, or provides a blood donation transfer service in a dedicated application method that is downloaded and installed on the user terminal 210. A blood donation certificate transfer service can be provided to users in various formats and methods, such as providing.

4 to 11 are screen examples of web pages provided by the blood donation transfer system according to an embodiment of the present invention.

4 is a screen example of a main page.

In FIG. 4, a menu of'Introduction to transfer system, transfer of blood donation certificate, My page' is provided at the top right of the screen. If you select the'Transfer blood donation' menu, you can select the categories of'Transfer personal blood donation' and'Transfer blood donation to an institution', and you can select each category and write and upload a transfer post using the bulletin board format. Function.

5 is a screen example of writing a request to transfer a personal blood donation by selecting'Transfer personal blood donation'.

In the screen example of FIG. 5, an article written by an individual who wishes to receive a blood donation certificate is illustrated, and the name, blood type, the number of required blood donation certificates, and specific donation requests are described.

6 is an example of a screen in which one request for transfer of a blood donation is selected from a list of requests for transfer of a blood donation in the'Transferring Personal Blood Donation' menu.

In FIG. 6, a user who wishes to transfer a blood donation certificate can transfer the blood donation certificate to an individual who posted the article by reading the content of the article and clicking the'Transfer Blood Donation Certificate' button at the bottom right of the screen.

7 is an example of a screen of'My Page', and menus of'transfer details inquiry' and'inspection details inquiry' are provided.

FIG. 8 is an example of a screen in which a'transfer history inquiry' menu is selected, and transfer history information including a history of donating blood and a place where blood has been donated can be inquired, and in particular, information on whether to use a blood donation certificate can be inquired.

9 is an example of a screen in which a'test history inquiry' menu is selected, and blood test results at the time of blood donation can be viewed.

10 is an example of a screen in which a'transfer details inquiry' menu is selected.

In FIG. 10, information on transfer details such as the number of blood donations received from whom, the use of each blood donation certificate, and the recent use time are displayed.

In particular, the'Show Thanks' button is provided for each transfer, so if you click the'Show Thanks' button, the function to deliver a thank you message to the transferor who transferred the blood donation certificate from the transfer details is activated.

11 is an example of a screen in which the'Display Thanks' button is clicked, and a thank-you message can be created and delivered to a corresponding transferor.

At this time, the method of delivering the audit message can be implemented in various ways. For example, it can be implemented by uploading a thank-you message on a web page, and the transferor can check the thank-you message by accessing the web page. Alternatively, the thank-you message may be transmitted to a terminal possessed by the transferor as a short message service (SMS). Alternatively, a thank you message may be transmitted through a mobile messenger application installed on a terminal possessed by the transferor.

12 is a schematic flowchart of transmission and reception of a security message for transfer of a blood donation between the block chain server 1203 for transferring a blood donation and a terminal 1205 for transferring a blood donation.

The blood donation transferor terminal 1205 transmits a message including the transferor ID, the blood donation transfer blockchain server access code, and the blood donation transferor terminal public key to the blood donation transfer blockchain server 1203 (1207). Then, the blood donation transfer block chain server 1203 transmits a message including the public key of the blood donation transfer block chain server to the blood donation transferee terminal (1209). Then, the blood donation transfer block chain server 1203 transmits a message including an encrypted query to the blood donation transfer terminal 1205 (1211). In addition, the blood donation transfer block chain server 1203 transmits a message including the encrypted query decryption key to the blood donation transfer terminal 1205 (1213). When the blood donation transfer block chain server 1203 transmits a message requesting response data to the blood donation transferor terminal 1205 (1215), the blood donation transferor terminal 1205 sends a message containing encrypted response data (transfer request data). The blood donation is transferred to the blockchain server 1203 (1217). The blood donation transfer blockchain server 1203 transmits a message including a security log request to the blood donation transferor terminal 1205 (1219), and the blood donation transferor terminal 1205 is a security log encrypted with the blood donation transfer blockchain server 1203 When a message including a is transmitted (1221), the blood donation transfer block chain server 1203 transmits a message including the transfer result (approval result for the transfer request data) to the blood donation transferee terminal 1205 (1223).

13 is a schematic flowchart of transmission and reception of a blood donation certificate transfer security message between the blood information management server 1201 and the blood donation certificate transfer block chain server 1203.

The blood donation transfer block chain server 1203 transmits a message including the blood donation transfer block chain server public key to the blood information management server 1201 or blood information sharing server (1301). The blood information management server 1201 transmits a message including the blood information management server public key to the blood donation transfer block chain server 1203 (1303). The blood information management server 1201 transmits a message including the encrypted blood management information to the blood donation transfer block chain server (1305). The blood donation transfer block chain server 1203 transmits a message including the encrypted blood donation transfer preliminary result to the blood information management server 1201 (1307). The blood information management server 1201 transmits a message including an encrypted security request to the blood donation transfer block chain server 1203 (1309). The blood donation transfer block chain server 1203 transmits a message including an encrypted security response to the blood information management server (1311). Then, the blood information management server 1201 transmits a message including the encrypted transfer result (transfer confirmation result) to the blood donation certificate transfer block chain server 1203 (1313).

As described above, the blockchain-based blood donation transfer system of the present invention has publicity as much as it is for the convenience of Korean blood donors (transferees) and blood donors (transferees), and can contribute to the convenience of electronicization and transfer of blood donations required throughout the country. have. In fact, it is technically compatible with the existing system, and from a policy point of view, the possibility of realization is high because the security of personal medical information is guaranteed with a blockchain. In addition, it can be seen that the blood donation transfer system of the present invention has a technical and institutional system construction possibility under the leadership of the Centers for Disease Control and Prevention and the Korean Red Cross.

The present invention has been described above using several preferred embodiments, but these embodiments are illustrative and not limiting. Those of ordinary skill in the art to which the present invention pertains will understand that various changes and modifications can be made without departing from the spirit of the present invention and the scope of the rights presented in the appended claims.

10 Blood donation transfer system 20 Blood information management system
30 Blood Information Sharing System 100 Transfer Server
120 database 210 user terminal

Claims (8)

When the blood donation certificate information including the blood donation certificate serial number and owner information is imported from the blood information management system to the blockchain, and the transfer of the blood donation certificate according to the transaction between users is established, the changed blood donation certificate owner information and the blood donation certificate transaction details are displayed on the blockchain. A transfer server that registers in and generates a block, passes the generated block to each node to verify and share data, and updates the changed blood donation certificate owner information and blood donation certificate transaction details on the blood information management system and the blood information sharing system; And
It includes a database for storing the blood donation related information data,
The transfer server provides a function of transferring blood donations between individuals or transferring blood donations from individuals to institutions,
The transfer server uploads a request for transfer of a personal blood donation certificate, which describes the contents of a user's desired transfer of a blood donation certificate through a user terminal possessed by a user (hereinafter referred to as'transferee'), and uploads the uploaded personal blood donation certificate transfer request list. Publicly,
If there is an application that the transfer server wants to transfer to a request to transfer a personal blood donation certificate from the list of requests for transferring a personal blood donation card through a user terminal possessed by a user (hereinafter referred to as a'transferr'), the transferee is based on the blockchain. And the transfer of blood donation between the transferee and
If there is an application that the transfer server wants to transfer, the transfer server requests and checks whether the transferor has used a blood donation certificate to the blood information management system, and performs processing of the transfer of the blood donation certificate only when a blood donation certificate is not used,
The transfer server provides a function to write a personal blood donation request message including the name, blood type, required number of blood donation certificates, and specific donation request contents through the user terminal,
The transfer server can perform blood donation transfer processing using a blockchain network based on Hyperledger fabric,
At this time, the client node is the transferor's user terminal or the transferee's user terminal, the endorsing peer is a node included in the blood information management system, and the commiting peer is a node included in the blood information sharing system. when doing,
When the client node requests a transaction that wants to receive a blood donation certificate, the application delivers the request to the assurance peer,
The assurance peer executes a chaincode to verify the transaction, delivers the verification result to the application,
The application checks whether the received verification result satisfies a predefined endorsing policy, and if satisfied, submits a transaction to the orderer,
In performing an ordering service, the orderer defines an order of transactions, generates blocks in order, and transmits them to all peers including the assurance peer and the committing peer,
All peers check whether the received block satisfies the guarantee policy and check whether a transaction occurs in the ledger state, and performs a block chain-based blood donation transfer process.
delete delete delete The method according to claim 1,
The transfer server is a blood donation transfer system, characterized in that it provides a function of inquiring the transfer history of blood donation, including information related to donation transfer, blood donation history, blood donation place, use of blood donation certificate, and blood donation transfer-related information at the request of the user terminal.
The method of claim 5,
The transfer server is a blood donation transfer system, characterized in that to provide a thank you display function that displays a thank you message to the transferor on the blood donation transfer history inquiry screen.
The method of claim 6,
The transfer server, when the creation of the thank-you message in the thank-you display function is completed, transmits the created thank-you message to the terminal of the transferor.
The method according to claim 1,
The transfer server is a blood donation transfer system, characterized in that it provides a blood test result inquiry function for inquiring a blood test result at the time of blood donation.

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