KR102336904B1 - System for providing medical mydata service based on blockchain - Google Patents

Abstract

In the method of operating a node on a network of a blockchain that distributes and manages a ledger recording medical my data, the first patient medical my data of a first patient is obtained from a first server of a first provider that provides patient medical my data to do; obtaining, from the first patient medical my data, first patient information indicating the personal information of the first patient and first medical my data indicating medical my data other than the first patient information; generating first patient medical my data in which the first patient information and the first medical my data are encrypted, based on the first patient's private key and the first provider's private key; recording the encrypted first patient medical my data in the first ledger of the block chain held by the node; and transmitting the encrypted first patient medical my data to a plurality of nodes on the network of the blockchain.

Description

A system that provides medical my data service based on blockchain {SYSTEM FOR PROVIDING MEDICAL MYDATA SERVICE BASED ON BLOCKCHAIN}

It is about technology that provides medical my data service based on blockchain.

Recently, due to an increase in medical expenses and an aging population, a medical my data sharing service is being introduced by using information and communication technology to improve the health status and diagnosis of patients. The medical my data sharing service is expected to bring about a change in the way medical services are provided.

On the other hand, since personal information is included in medical my data, there is a problem in that security and stability must be secured in sharing medical my data. Therefore, there is a need for a technique for solving the above problem.

Based on blockchain, we want to increase the security of patient's medical my data. By continuously recording the patient's medical my data, the patient's medical information is to be easily managed.

By recording the patient's medical my data in the ledger based on the block chain, the patient's medical my data can be widely shared.

We want to provide appropriate compensation to the patient or the provider who provided the patient's medical my data. Transaction history information for medical my data can also be recorded in the ledger based on blockchain.

According to one side, in a method of operating a node on a network of a blockchain that distributes and manages a ledger recording medical my data, the first patient medical acquiring my data; obtaining, from the first patient medical my data, first patient information indicating the personal information of the first patient and first medical my data indicating medical my data other than the first patient information; generating first patient medical my data in which the first patient information and the first medical my data are encrypted, based on the private key of the first patient and the private key of the first provider; recording the encrypted first patient medical my data in the first ledger of the block chain held by the node; and transmitting the encrypted first patient medical my data to a plurality of nodes on the network of the blockchain.

According to the other side, a communication device that communicates with nodes and external devices on a network of a blockchain that distributes and manages a ledger recording medical my data; storage for storing the ledger; processor; and a memory storing instructions executable by the processor, wherein the processor executes the instructions, thereby providing a first patient medical my data of a first patient from a first server of a first provider that provides patient medical my data. obtain data, and from the first patient medical my data, obtain first patient information representing personal information of the first patient and first medical my data representing medical my data other than the first patient information; Based on the private key of the first patient and the private key of the first provider, the first patient information and the first medical my data are encrypted to generate first patient medical my data, and the encrypted first patient medical my data A node is provided that records my data in the ledger and transmits the encrypted first patient medical my data to a plurality of nodes on the network of the blockchain.

According to another aspect, the method comprising: obtaining first patient medical my data of a first patient from a first server of a first provider that provides patient medical my data; obtaining, from the first patient medical my data, first patient information indicating the personal information of the first patient and first medical my data indicating medical my data other than the first patient information; transmitting the first medical my data to nodes on a network of a blockchain that distributes and manages a first ledger recording medical my data; and requesting the node to record the first medical my data in the first ledger.

Based on blockchain, it is possible to increase the security of patient's medical my data. Since the patient's medical my data is continuously recorded, the patient's medical information can be easily managed.

By recording the patient's medical my data in the ledger based on the block chain, the patient's medical my data can be widely shared.

Appropriate compensation may be paid to the patient or the provider who provided the patient's medical my data. Transaction history information for medical my data is also recorded in the ledger based on the block chain, so that transaction history information can be managed transparently.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention can be easily understood by the following detailed description and combination of the accompanying drawings, in which reference numerals mean structural elements.
1A shows a patient's medical my data recorded in a ledger held by nodes on a blockchain network, and a predetermined medical my data is provided to an external device, and a patient's terminal or a server that provides the medical my data, according to an embodiment; It is a conceptual diagram for explaining the operation of a node that provides a reward.
Figure 1b shows, according to another embodiment, patient medical my data is recorded in the ledger held by nodes on the blockchain network, the platform server provides predetermined medical my data to an external device, and the patient's terminal or medical my data is It is a conceptual diagram for explaining an operation of providing a compensation with an external device provided.
2 is a flowchart illustrating an operation of a node that records patient medical my data in a ledger owned by a node and transmits it to other nodes, according to an embodiment.
3 is a diagram for explaining a method of generating encrypted patient medical my data, according to an embodiment.
4 is a diagram for explaining a method of generating encrypted patient medical my data according to another embodiment.
FIG. 5 is a diagram for explaining a process of verifying whether patient medical my data received from an external node is valid and recording it in a ledger, according to an embodiment.
6 is a diagram for explaining the structure of a block and a block chain, according to an embodiment.
7 is a diagram for explaining a process of transmitting encrypted medical my data based on a ledger when predetermined medical my data is requested from an external device, according to an embodiment.
8 is a block diagram illustrating a configuration of a node, according to an embodiment.

Hereinafter, various embodiments will be described in detail with reference to the drawings. The embodiments described below may be modified and implemented in various different forms. In order to more clearly describe the characteristics of the embodiments, detailed descriptions of matters widely known to those of ordinary skill in the art to which the following embodiments belong will be omitted.

On the other hand, in the present specification, when a component is "connected" with another component, this includes not only a case of 'directly connected' but also a case of 'connected with another component interposed therebetween'. In addition, when a component "includes" another component, it means that other components may be further included, rather than excluding other components, unless otherwise stated.

Also, terms including ordinal numbers such as 'first' or 'second' used in this specification may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

In this specification, "blockchain" refers to a ledger that utilizes a software element consisting of an algorithm in which blocks connected in order in order to secure and maintain integrity negotiate service usage history information using encryption and security technology. It may refer to a distributed P2P (Peer to Peer) system. Here, the distributed P2P system may be a special type of distributed system.

1A shows a patient's medical my data in a ledger held by nodes on a blockchain network, and provides a predetermined medical my data to an external device, and a patient's terminal or a server that provides the medical my data, according to an embodiment; It is a conceptual diagram for explaining the operation of a node that provides a reward.

Referring to FIG. 1A , in step S101 , the patient's terminal 30 may transmit consent information for provision of the patient's medical my data to the server 20 . For example, the medical my data may be data on at least one of medical treatment information about a patient, medical prescription information, and medical image information. For example, the patient's terminal 30 may be a smart phone, a tablet PC, a PC, a mobile phone, a PDA, a laptop, or the like. When the patient has consent to the provision of medical my data, the server 20 transmits the medical my data among the nodes (10-1, 10-2, 10-3, 10-4, 10-5) on the blockchain network. It can be transmitted to at least one node. In the ledger owned by each of the nodes 10-1, 10-2, 10-3, 10-4, and 10-5, medical my data for a patient may be recorded.

For example, the server 20 may be a server of a hospital. The hospital server may be a server that provides medical my data to the nodes 10-1, 10-2, 10-3, 10-4, and 10-5 on the blockchain network. The server of the hospital may generate medical my data for the patient based on the medical treatment information that the doctor treated the patient in the hospital. For example, the server 20 may generate medical my data based on a result of reading a predetermined medical image of a patient (eg, a CT image, an MRI image, an ultrasound image, etc.) and a result of the doctor diagnosing the patient. can create In this case, the medical my data may be de-identified data.

Also, for example, the server 20 may be a platform server that generates medical my data and manages medical my data. For example, the platform server may receive the patient's medical treatment information and the patient's medical image information from the server of the hospital, and based on the received patient's medical information and the patient's medical image information, medical my data for the patient can create

The server 20 may obtain patient medical my data for the patient, and transmit a request for consent for use of patient medical my data to the patient's terminal 30 . The patient's terminal 30 may transmit consent information indicating whether to consent to the use of the patient's medical my data to the server 20 .

In step S102, the server 20 distributes and manages the ledger recording medical my data to the nodes (10-1, 10-2, 10-3, 10-4, 10-5) on the blockchain network for patient care. You can request a record of My Data. Here, the nodes 10-1, 10-2, 10-3, 10-4, and 10-5 may refer to components within the network of the block chain. For example, nodes 10-1, 10-2, 10-3, 10-4, and 10-5 may be, but are not limited to, special-purpose computers, general-purpose computers, supercomputers, large computers, and the like.

For example, the server 20 serves as the first node 10-1 among a plurality of nodes 10-1, 10-2, 10-3, 10-4, and 10-5 on the network of the block chain. You can request a record of your medical my data. The first node 10-1 may record a plurality of patient medical my data received from the server 20 in the ledger of the block chain. For example, the first node 10-1 is the second node 10-2, the third node 10-3, the fourth node 10-4, and the fifth node 10-5, respectively. A plurality of patient medical my data may be shared so that a plurality of patient medical my data obtained from the server 20 is recorded in the ledger. A process of recording medical my data in the ledger will be described with reference to FIGS. 2 to 8 .

Meanwhile, the server 20 may store the medical my data in a separate external server. In this case, the medical my data stored in the external server may be de-identified data. Thereafter, the server 20 may verify the integrity of the medical my data stored in the external server by comparing the medical my data recorded in the ledger with the medical my data stored in the external server. When the integrity of the medical my data stored in the external server is verified, medical information processed from the medical my data stored in the external server can also be identified as highly reliable information.

In step S103, the external device 40 requesting medical my data includes nodes (10-1, 10-2, 10-3, 10-4, 10-1, 10-2, 10-3, 10-4, 10-5), you can request a predetermined medical my data. The external device 40 may perform payment in exchange for reading the medical my data. For example, the external device 40 may be a device that provides a service related to a medical image. Also, the external device 40 may be a device of a research institute, a pharmaceutical company, or an insurance company using medical data. Also, the external device 40 may be a server of a hospital requiring predetermined medical my data for a patient. Also, the external device 40 may be a device of a pharmacy that requires prescription information for a patient.

In step S104 , predetermined nodes 10-1, 10-2, 10-3, 10-4, and 10-5 on the network of the block chain may provide medical my data to the external device 40 . In step S105, the predetermined node may pay the first compensation pay to the electronic account of the patient based on the history of using the patient medical my data. For example, the compensation pay may be an electronic cash or electronic voucher that can be used by a patient at a hospital or a place that provides medical services. Also, the reward pay may be an electronic cash having the same function as cash. For example, the first compensation pay provided to the patient may be determined based on the number and period of use of the patient's medical my data.

In addition, in step S106 , the predetermined node may pay the second compensation pay to the electronic account of the provider who provided the medical my data based on the history of using the plurality of patient medical my data in the server 20 . For example, the second compensation pay provided to the server 20 may be determined based on at least one of the number of names of the plurality of patients, the amount of medical my data information for the plurality of patients, and the number and period of use of each medical my data. can

By recording medical my data about patients in the ledger of each node based on blockchain, it is possible to provide medical my data with guaranteed integrity to service providers or patients who need medical my data. For example, a service requiring medical my data may be a medical treatment information exchange service, a health checkup service, and an image data service, but is not limited to the above example.

Figure 1b shows, according to another embodiment, patient medical my data is recorded in the ledger held by nodes on the blockchain network, the platform server provides predetermined medical my data to an external device, and the patient's terminal or medical my data is It is a conceptual diagram for explaining an operation of providing a compensation with an external device provided.

Referring to FIG. 1B , in step S111 , the external device 35 providing medical information may transmit the patient's medical information to the platform server 20 . For example, the external device 35 that provides medical information may be a server of a hospital, a server of a laboratory that provides medical data, or a server of a pharmaceutical company. For example, the patient's medical information may be at least one of medical treatment information, medical prescription information, and medical image information about the patient.

The platform server 20 may generate medical my data for the patient based on the medical information received from the external device 35 that provides medical information. For example, the platform server 20 reads a predetermined medical image of the patient (eg, a CT image, an MRI image, an ultrasound image, etc.) and based on the result of the doctor diagnosing the patient, can create In this case, the medical my data may be de-identified data.

In step S112 , the patient's terminal 30 may transmit consent information for provision of the patient's medical my data to the platform server 20 .

In step S113, the platform server 20 distributes and manages the ledger recording medical my data to the nodes (10-1, 10-2, 10-3, 10-4, 10-5) on the blockchain network. You can request a record of your medical my data.

In step S114 , the platform server 20 may request storage of the patient's medical my data to the storage 25 connected to the platform server. The storage 25 may store the patient's medical my data.

In step S115 , the external device 40 requesting medical my data may request predetermined medical my data from the platform server 20 . The external device 40 may perform payment in exchange for reading the medical my data. The platform server 20 is a node (10-1, 10-2, 10-3, 10-4, 10-5) on the network of the block chain that distributes and manages the ledger recording medical my data, and the prescribed medical my data can request

In step S116 , the nodes 10-1, 10-2, 10-3, 10-4, and 10-5 on the blockchain network may transmit medical my data to the platform server 20 . Also, in step S117 , the storage 25 may transmit the medical my data to the platform server 20 . The platform server 20 may verify the integrity of the medical my data stored in the storage 25 by comparing the medical my data recorded in the ledger with the medical my data stored in the storage 25 . In step S118 , the platform server 20 may provide the medical my data to the external device 40 requesting the medical my data. In some cases, the operation of step S117 may be omitted.

In step S119 , the platform server 20 may pay the first compensation pay to the patient's terminal 30 . Also, in step S120 , the platform server 20 may pay the second compensation pay to the external device 35 that provides medical information.

In step S121, the platform server 20 requests to record the transaction history information for medical my data to the nodes 10-1, 10-2, 10-3, 10-4, and 10-5 on the network of the block chain. can Also, in step S122 , the platform server 20 may request the storage 25 to record transaction history information for medical my data.

2 is a flowchart illustrating an operation of a node that records patient medical my data in a ledger owned by a node and transmits it to other nodes, according to an embodiment.

Referring to FIG. 2 , in step S210 , the node 10 may obtain the first patient medical my data of the first patient from the first server of the first provider that provides the patient medical my data.

In step S220, the node 10 may obtain, from the first patient medical my data, first patient information indicating the first patient's personal information and first medical my data indicating medical my data other than the first patient information. have.

In step S230, the node 10 may generate the first patient medical my data in which the first patient information and the first medical my data are encrypted, based on the first patient's private key and the first provider's private key. .

For example, the node 10 may generate a first patient hash value corresponding to the first patient information by applying the first patient information to the first hash function. Here, the first hash function may refer to a function that converts any type of data into a number of a fixed length regardless of the length of the input data. The first hash function may calculate a hash value using bits and bytes constituting the input data. The node 10 may encrypt the first patient hash value with the first patient's private key to generate the first patient information encrypted text in which the digital signature of the first patient is applied to the first patient information. Also, the node 10 may generate a first medical hash value corresponding to the first medical my data by applying the first medical my data to the first hash function. The node 10 may encrypt the first medical hash value with the private key of the first provider to generate a first medical my data encrypted text in which the digital signature of the first provider is applied to the first medical my data. The node 10 may combine the first cipher text of patient information and the cipher text of first medical my data to generate encrypted first medical my data for patients.

As another example, the node 10 may perform de-identification processing on the first patient information. Here, the de-identification process may be a method of processing predetermined data so that the first patient information is not identified. The node 10 may generate a first patient hash value corresponding to the first patient information by applying the first de-identified patient information to the first hash function.

As another example, the first medical my data may include a medical image of the first patient. The node 10 may acquire information on at least one feature point used to diagnose the first patient in the medical image of the first patient.

The node 10 may generate a first patient hash value corresponding to the first patient information by applying the information of at least one feature point and the first patient information to the first hash function. The node 10 may encrypt the first patient hash value with the first patient's private key to generate the first patient information encrypted text in which the digital signature of the first patient is applied to the first patient information.

Also, the node 10 may generate a first medical hash value corresponding to the first medical my data by applying information extracted from information of at least one feature point in the first medical my data to the first hash function. . The node 10 may encrypt the first medical hash value with the private key of the first provider to generate a first medical my data encrypted text in which the digital signature of the first provider is applied to the first medical my data. The node 10 may combine the first cipher text of patient information and the cipher text of first medical my data to generate encrypted first medical my data for patients.

In step S240 , the node 10 may record the encrypted first patient medical my data in the first ledger of the block chain held by the node 10 .

For example, the node 10 may record the encrypted first patient medical my data in the candidate block. When the plurality of encrypted patient medical my data recorded in the candidate block reaches a predetermined capacity, the node 10 performs proof-of-work of the candidate block to make the candidate block valid in the first ledger of the node 10's block chain. It can be added as the first block.

Meanwhile, in the ledger owned by the node 10 , medical my data for a plurality of patients may be recorded. In the ledger, initial medical my data for each of a plurality of patients to current medical my data may be recorded. Thereafter, when there is a request for the medical my data of the first patient from the external device or the terminal of the first patient, the node 10 may provide a history of the medical my data for the first patient. Also, the node 10 may periodically generate a separate block in which only medical my data for each of a plurality of patients is recorded. Also, the node 10 may periodically generate a separate block in which only medical my data for each group of patients separated according to a predetermined criterion is recorded.

In step S250 , the node 10 may transmit the encrypted first patient medical my data to a plurality of nodes 10 on the network of the block chain.

On the other hand, when the second block for which the proof of work is completed is received from a predetermined node on the block chain network, the node 10 checks the validity of the plurality of patient medical my data included in the second block and the validity of the block header of the second block. By checking, it is possible to verify the validity of the second block.

If the second block is valid, the node 10 can add the second block to the first ledger of the node 10's blockchain. On the other hand, if the second block is not valid, the node 10 may remove the second block.

Also, the node 10 may remit the first compensation pay to the electronic account of the first patient based on the history of using the patient medical my data for the first patient. Also, the node 10 may remit the second compensation pay to the electronic account of the first provider based on the history of using the plurality of patient medical my data provided by the first provider.

3 is a diagram for explaining a method of generating encrypted patient medical my data, according to an embodiment.

Referring to FIG. 3 , the node 10 may obtain the patient medical my data 310 of a predetermined patient from the server of the provider that provides the patient medical my data. Here, the patient medical my data 310 may include patient information 320 indicating personal information of the patient and medical my data 330 indicating information other than the patient information 320 .

For example, in the patient information 320 representing the patient's personal information, personal information not directly related to the patient's diagnosis, such as the patient's name, the patient's resident registration number, the patient's hospital registration number, the time the patient visited the hospital, etc. may be included, and is not limited to the above examples.

For example, the medical my data 330 may include information directly related to the diagnosis of the patient, such as medical record information received by the patient, medical image information for the patient, first aid record information for the patient, and examination record information for the patient. and is not limited to the above examples.

Referring to FIG. 3 , the node 10 may generate a patient hash value 321 corresponding to the patient information 320 by applying the patient information 320 to a hash function. For example, the patient hash value 321 may be “ADIFQ45”. The node 10 may encrypt the patient hash value 321 with the patient's private key to generate a patient information encrypted text 322 in which the patient's digital signature is applied to the patient information. For example, the patient information ciphertext 322 may be “QIERO87LAK”.

The node 10 may generate a medical hash value 331 corresponding to the medical my data 330 by applying the medical my data 330 to the hash function. For example, the medical hash value 331 may be “DIFOWKC”. The node 10 may encrypt the medical hash value 331 with the provider's private key to generate a medical my data encrypted text 332 in which the provider's digital signature is applied to the medical my data. For example, the medical mydata encrypted text 332 may be “%DKF*3KDOQ”.

The node 10 may combine the patient information ciphertext 322 and the medical mydata ciphertext 332 to generate the encrypted patient medical mydata 340 .

4 is a diagram for explaining a method of generating encrypted patient medical my data according to another embodiment.

For example, the medical my data 430 may include information directly related to the diagnosis of the patient, such as medical record information received by the patient, medical image information for the patient, first aid record information for the patient, and examination record information for the patient. and is not limited to the above examples. The node 10 may extract characteristic information that directly affects the patient diagnosis result from among the information included in the medical my data 430 . The node 10 may encrypt the characteristic information together with the patient information 420 of the patient, thereby more safely protecting the patient's personal information.

In FIG. 4 , a case in which the medical my data 430 is medical image information will be described as an example.

Referring to FIG. 4 , the node 10 may acquire patient medical my data 410 . The node 10 may generate a patient hash value 421 corresponding to the patient information 420 by applying the patient information 420 to a hash function. For example, the patient hash value 421 may be “ADIFQ45”. The node 10 may obtain information 431 of at least one key point used for diagnosing a patient in the patient's medical image information from the medical my data 430, and information other than the at least one key point ( 432) can be obtained.

For example, the node 10 applies a hash function to each of the information 431 of at least one feature point and the information 432 other than the at least one feature point, and a hash corresponding to the information 431 of the at least one feature point. A hash value 434 corresponding to the value 433 and the information 432 other than the at least one feature point may be obtained. For example, the hash value 433 may be EIWOCK1, and the hash value 434 may be CKMVN&Y.

The node 10 may combine the patient hash value 421 and the hash value 433 and generate the patient information encrypted text 435 by encrypting it with the patient's private key. For example, the patient information ciphertext 435 may be DIRNE&$2UV. The node 10 may generate a medical mydata ciphertext 436 by encrypting the hash value 434 with the provider's private key. For example, the medical mydata ciphertext 436 may be EMCKO82%91.

The node 10 may combine the patient information ciphertext 435 and the medical mydata ciphertext 436 to generate encrypted patient medical mydata 440 .

FIG. 5 is a diagram for explaining a process of verifying whether patient medical my data received from an external node is valid and recording it in a ledger, according to an embodiment.

The second node 10 - 2 may acquire the fifth patient medical my data. The second node 10-2 may encrypt the fifth patient medical my data, and transmit the encrypted fifth patient medical my data to the first node 10-1 on the network of the block chain.

In step S501 of FIG. 5 , the first node 10 - 1 may decrypt the encrypted fifth patient medical my data and verify whether the fifth patient medical my data is valid based on the decrypted result.

As a result of verifying whether the fifth patient medical my data is valid, if the fifth patient medical my data is not valid, the first node 10 - 1 may remove the fifth patient medical my data.

If the fifth patient medical my data is valid, the first node 10-1 may transmit it to the third node 10-3 on the blockchain network. Also, the first node 10 - 1 may record the fifth patient medical my data in the candidate block 510 . When the plurality of patient medical my data recorded in the candidate block 510 reaches a predetermined capacity, the node may generate a valid block by performing proof-of-work on the candidate block 510 .

On the other hand, if the third node 10-3 also verifies that the fifth patient medical my data is valid, the third node 10-3 adds the fifth patient medical my data to the candidate block and works on the candidate block A valid block can be generated by performing proof.

6 is a diagram for explaining the structure of a block and a block chain, according to an embodiment.

As shown in FIG. 6 , the block chain may be configured by connecting blocks in which a plurality of patient medical my data are recorded. That is, the data structure of the block chain may be a predetermined data structure composed of units in which blocks in which medical my data are recorded are arranged in order. In addition, the data structure of the block chain is a data structure in which each block header is linked in a chain format with reference to the previous block header, and a hash reference pointing to the data of medical my data and the data of a Merkle tree in which the data of medical my data is connected in a tree form can be structured.

Blocks may include block hashes, block headers, medical mydata, and the like. The block header may include information on the version of the current program, the hash value of the previous block header, the root of the merkle tree, timestamp, difficulty level, and nonce.

The block hash may be a hash value of a hash function applied with information on the current program version, the hash value of the previous block header, the root of the Merkle tree, timestamp, difficulty, and nonce as input values. That is, the block hash value may be a hash value of the block header, not a hash value of the entire block.

The hash value of the previous block header uniquely identifies each block header and may be used to refer to the previous block header. If each block header refers to the previous block header, the order of individual block headers and blocks may be maintained. Referring to FIG. 6 , since the first block 610 is the first block, there is no previous block, so there is no reference to the previous block header. Accordingly, the hash value of the previous block header of the first block 610 is 0. Also, since the second block 620 includes the first block 610 that is the previous block, the second block header has a hash value indicating the first block header. Similarly, since the third block 630 includes the previous block, the second block 620 , the third block header has a hash value indicating the second block header.

The Merkle tree may refer to a structure in which hash reference and medical MyData data are connected in a tree form. The hash reference may mean pointing to data of medical mydata using an encrypted hash value. On the other hand, since the cryptographic hash value is a unique value of data, different data do not have the same hash value.

The timestamp may mean the time when the work started for proof of work. Difficulty can mean a constraint in a proof-of-work or hash puzzle. Nonce may mean a value that is adjusted so that the value of the block hash satisfies a constraint for proof of work.

7 is a diagram for explaining a process of transmitting encrypted medical my data based on a ledger when predetermined medical my data is requested from an external device, according to an embodiment.

Referring to FIG. 7 , in step S710 , the node 10 may receive a request for a plurality of medical my data corresponding to predetermined condition information from an external device of the first consumer using the medical my data.

In step S720, when the authentication of the first consumer and approval of use of the plurality of medical my data is confirmed, the node 10 extracts a plurality of encrypted reference patient medical my data satisfying predetermined condition information from the first ledger and extract a plurality of encrypted reference medical my data from the plurality of encrypted reference patient medical my data.

In step S730, the node 10 may decrypt the plurality of encrypted reference medical my data with the private key of the first provider to obtain the plurality of reference medical my data.

In step S740 , the node 10 may generate a plurality of finite reference medical my data set to automatically delete the plurality of reference medical my data when a predetermined time has elapsed.

In step S750 , the node 10 may obtain a plurality of encrypted medical my data by encrypting a plurality of finite reference medical my data with a one-time encryption key. The node 10 may transmit a plurality of encrypted medical my data to an external device of the first consumer.

Meanwhile, if the first consumer is the first patient, the plurality of encrypted reference patient medical my data may be a plurality of encrypted first patient medical my data. Also, the plurality of finite reference medical my-data may be a plurality of finite first medical my-data.

The node 10 encrypts a plurality of encrypted first patient information extracted from a plurality of encrypted first patient medical my data, a finite plurality of first medical my data with a one-time encryption key, and a plurality of encrypted medical my data can be obtained. The node 10 may transmit a plurality of encrypted medical my data to an external device of the first consumer. The external device of the first consumer may decrypt the plurality of encrypted medical my data to obtain medical my data.

In this case, the external device of the first consumer may pay a price for using a plurality of medical my data to the node 10 . For example, the external device of the first consumer may remit the compensation pay to the node 10 . The node 10 may record transaction history information of a plurality of medical my data requested by the external device of the first recipient in the ledger. The node 10 may manage a ledger in which transaction history information of a plurality of medical my data is recorded separately from the ledger in which a plurality of medical my data are recorded. That is, the node 10 may have each of a first ledger recording a plurality of medical my data for a patient and a second ledger recording transaction history information of a plurality of medical my data. By separately managing the first ledger and the second ledger, the node can manage the patient's medical my data and medical my data in two ways.

For example, the transaction history information of the plurality of medical my data may include a plurality of medical my data, information of a first consumer who requested the plurality of medical my data, compensation information paid for the plurality of medical my data, and the like. .

8 is a block diagram illustrating a configuration of a node, according to an embodiment.

Referring to FIG. 8 , the node 10 may include a communication device 810 , a storage 820 , a memory 830 , and a processor 840 . The node 10 may be implemented by more components than the illustrated components, and the node 10 may be implemented by fewer components. Hereinafter, the components will be described.

The communication device 810 may communicate with an external device. Specifically, the communication device 810 may be connected to a network by wire or wirelessly to communicate with an external device. Here, the external device may include nodes on the block chain network, a patient's terminal, and a provider's server that provides medical my data to the node 10 .

The storage 820 may store the ledger held by the node 10 . The ledger can be composed of a blockchain in which blocks are connected.

The memory 830 may store predetermined software and/or programs. The memory 830 may store instructions executable by the processor 840 .

The processor 840 may obtain the first patient medical my data of the first patient from the first server of the first provider that provides the patient medical my data through the communication device 810 .

The processor 840 may obtain, from the first patient medical my data, first patient information indicating personal information of the first patient and first medical my data indicating medical my data other than the first patient information.

The processor 840 may generate first patient medical my data in which the first patient information and the first medical my data are encrypted based on the first patient's private key and the first provider's private key.

The processor 840 may generate a first patient hash value corresponding to the first patient information by applying the first patient information to the first hash function. The processor 840 may encrypt the first patient hash value with the private key of the first patient to generate a first patient information encrypted text in which the digital signature of the first patient is applied to the first patient information. Also, the processor 840 may generate a first medical hash value corresponding to the first medical my data by applying the first medical my data to the first hash function. The processor 840 may encrypt the first medical hash value with the private key of the first provider to generate a first medical my data encrypted text in which the digital signature of the first provider is applied to the first medical my data. The processor 840 may generate encrypted first patient medical my data by combining the first patient information encrypted text and the first medical my data encrypted text.

As another example, the first medical my data may include a medical image of the first patient. The processor 840 may acquire information on at least one feature point used to diagnose the first patient in the medical image of the first patient.

The processor 840 may generate a first patient hash value corresponding to the first patient information by applying the information of at least one feature point and the first patient information to the first hash function. The processor 840 may encrypt the first patient hash value with the private key of the first patient to generate a first patient information encrypted text in which the digital signature of the first patient is applied to the first patient information.

Also, the processor 840 may generate a first medical hash value corresponding to the first medical my data by applying information extracted from information of at least one feature point in the first medical my data to the first hash function. . The processor 840 may encrypt the first medical hash value with the private key of the first provider to generate a first medical my data encrypted text in which the digital signature of the first provider is applied to the first medical my data. The processor 840 may generate encrypted first patient medical my data by combining the first patient information encrypted text and the first medical my data encrypted text.

The processor 840 may record the encrypted first patient medical my data in the first ledger of the block chain held by the node 10 .

For example, the processor 840 may record the encrypted first patient medical my data in the candidate block. When the plurality of encrypted patient medical my data recorded in the candidate block reaches a predetermined capacity, the processor 840 performs proof-of-work of the candidate block to make the candidate block valid in the first ledger of the block chain of the node 10 . It can be added as the first block.

The processor 840 may transmit the encrypted first patient medical my data to the plurality of nodes 10 on the network of the block chain through the communication device 810 .

On the other hand, the processor 840 checks the validity of the plurality of patient medical my data included in the second block and the validity of the block header of the second block when the second block for which the proof of work is completed is received from a predetermined node on the network of the block chain. By checking, it is possible to verify the validity of the second block.

If the second block is valid, the processor 840 may add the second block to the first ledger of the block chain of the node 10 . On the other hand, if the second block is not valid, the processor 840 may remove the second block.

Also, the processor 840 may remit the first compensation pay to the electronic account of the first patient based on the history of using the patient medical my data for the first patient. In addition, the processor 840 may remit the second compensation pay to the electronic account of the first provider based on the history of using the plurality of patient medical my data provided by the first provider.

The processor 840 may receive a request for a plurality of medical my data corresponding to predetermined condition information from an external device of the first consumer using the medical my data through the communication device 810 .

When the authentication of the first consumer and approval of use of a plurality of medical my data is confirmed, the processor 840 extracts a plurality of encrypted reference patient medical my data satisfying predetermined condition information from the first ledger, and the encrypted A plurality of encrypted reference medical my data may be extracted from the plurality of reference patient medical my data.

The processor 840 may obtain a plurality of reference medical my data by decrypting the encrypted plurality of reference medical my data with the private key of the first provider.

The processor 840 may generate a plurality of finite reference medical my data set to automatically delete the plurality of reference medical my data when a predetermined time elapses.

The processor 840 may obtain a plurality of encrypted medical my-data by encrypting a plurality of finite reference medical my-data with a one-time encryption key. The processor 840 may transmit a plurality of encrypted medical my data to a plurality of nodes through the communication device 810 .

Meanwhile, if the first consumer is the first patient, the plurality of encrypted reference patient medical my data may be a plurality of encrypted first patient medical my data. Also, the plurality of finite reference medical my-data may be a plurality of finite first medical my-data.

The processor 840 encrypts a plurality of encrypted first patient information extracted from a plurality of encrypted first patient medical my data, a plurality of finite first medical my data with a one-time encryption key, and a plurality of encrypted medical my data can be obtained.

The above-described operation method of the node 10, the server 20, the patient's terminal 30, and the external device 40 is implemented in the form of a computer-readable storage medium that stores instructions or data executable by a computer or processor. can be It can be written as a program that can be executed on a computer, and can be implemented in a general-purpose digital computer that operates such a program using a computer-readable storage medium. Such computer-readable storage media include ROM, RAM, flash memory, CD, DVD magnetic tape, floppy disk, magneto-optical data storage device, optical data storage device, hard disk, solid-state disk (SSD), and instructions or software. , related data, data files, and data structures.

As described above, although the embodiments have been described with reference to the limited embodiments and drawings, various modifications and variations are possible from the above description by those skilled in the art. For example, the described techniques are performed in an order different from the described method, and/or the described components of the system, structure, apparatus, circuit, etc. are combined or combined in a different form than the described method, or other components Or substituted or substituted by equivalents may achieve an appropriate result.

Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the following claims as well as the claims and equivalents.

Claims (15)

In a method of operating a node on a network of a blockchain that distributes and manages a ledger recording medical my data,
obtaining first patient medical my data of a first patient from a first server of a first provider that provides patient medical my data;
obtaining, from the first patient medical my data, first patient information indicating the personal information of the first patient and first medical my data indicating medical my data other than the first patient information;
generating first patient medical my data in which the first patient information and the first medical my data are encrypted, based on the first patient's private key and the first provider's private key;
recording the encrypted first patient medical my data in the first ledger of the block chain held by the node;
transmitting the encrypted first patient medical my data to a plurality of nodes on the network of the block chain;
remitting a first compensation pay to the electronic account of the first patient based on the history of using the patient medical my data for the first patient;
remitting a second compensation pay to the electronic account of the first provider based on a history of using a plurality of patient medical my data provided by the first provider; and
and recording transaction history information indicating the history of using the plurality of patient medical my-data in a second ledger in which the transaction history information of the medical my-data is recorded. According to claim 1,
The step of generating the encrypted first patient medical my data based on the private key of the first patient and the private key of the first provider includes:
generating a first patient hash value corresponding to the first patient information by applying the first patient information to a first hash function;
encrypting the hash value of the first patient with the private key of the first patient to generate a first patient information encrypted text in which the digital signature of the first patient is applied to the first patient information;
generating a first medical hash value corresponding to the first medical my data by applying the first medical my data to the first hash function;
encrypting the first medical hash value with the private key of the first provider to generate a first medical my data encrypted text in which the digital signature of the first provider is applied to the first medical my data; and
and generating the encrypted first patient medical my data by combining the first patient information encrypted text and the first medical my data encrypted text. 3. The method of claim 2,
The first medical my data includes medical image information of the first patient,
Further comprising the step of obtaining information on at least one feature point used to diagnose the first patient in the medical image information of the first patient,
The step of generating a first patient hash value corresponding to the first patient information includes:
generating a first patient hash value corresponding to the first patient information by applying the information of the at least one feature point and the first patient information to the first hash function;
The step of generating a first medical hash value corresponding to the first medical my data includes:
generating a first medical hash value corresponding to the first medical my data by applying information extracted from the information of the at least one feature point from the first medical my data to the first hash function; How the node works. According to claim 1,
The step of recording the encrypted first patient medical my data in the first ledger of the block chain held by the node comprises:
recording the encrypted first patient medical my data in a candidate block; and
When a plurality of encrypted patient medical my data recorded in the candidate block reaches a predetermined capacity, a proof-of-work of the candidate block is performed, and the candidate block is stored in the first ledger of the node's block chain as a valid first block. A method of operating a node, comprising adding as According to claim 1,
When the second block for which the proof of work is completed is received from a predetermined node on the network of the block chain, the validity of a plurality of patient medical my data included in the second block and the validity of the block header of the second block are checked, verifying the validity of the second block;
if the second block is valid, adding the second block to the first ledger of the node's blockchain; and
If the second block is not valid, the method further comprising the step of removing the second block. 3. The method of claim 2,
receiving a plurality of requests for medical my data corresponding to predetermined condition information from an external device of a first consumer using medical my data;
acquiring a plurality of encrypted medical my data satisfying the predetermined condition information based on the first ledger when the authentication of the first consumer and the approval of use of the plurality of medical my data are confirmed; and
The method of operating a node further comprising transmitting the encrypted plurality of medical my data to the external device. 7. The method of claim 6,
The step of obtaining, based on the first ledger, a plurality of encrypted medical my data satisfying the predetermined condition information,
extracting, from the first ledger, a plurality of encrypted reference patient medical my data satisfying the predetermined condition information, and extracting a plurality of encrypted reference medical my data from the encrypted plurality of reference patient medical my data; ;
decrypting the encrypted plurality of reference medical my data with the private key of the first provider to obtain a plurality of reference medical my data;
generating a plurality of finite reference medical my data set to automatically delete the plurality of reference medical my data when a predetermined time elapses; and
and encrypting the plurality of finite reference medical my-data with a one-time encryption key to obtain the encrypted plurality of medical my-data. 8. The method of claim 7,
If the first consumer is the first patient,
The encrypted plurality of reference patient medical my data is a plurality of encrypted first patient medical my data,
The plurality of finite reference medical my data is a plurality of finite first medical my data,
The step of encrypting the plurality of finite reference medical my-data with a one-time encryption key to obtain the encrypted plurality of medical my-data,
The plurality of encrypted first patient information extracted from the plurality of encrypted first patient medical my data is encrypted with the finite plurality of first medical my data with a one-time encryption key to obtain the encrypted plurality of medical my data A method of operating a node, comprising the step of: delete delete delete obtaining first patient medical my data of a first patient from a first server of a first provider that provides patient medical my data;
obtaining, from the first patient medical my data, first patient information indicating the personal information of the first patient and first medical my data indicating medical my data other than the first patient information;
transmitting the first medical my data to nodes on a network of a blockchain that distributes and manages a first ledger recording medical my data; and
requesting the node to record the first medical my data in the first ledger;
remitting a first compensation pay to the electronic account of the first patient based on the history of using the patient medical my data for the first patient;
remitting a second compensation pay to the electronic account of the first provider based on a history of using a plurality of patient medical my data provided by the first provider; and
and requesting, to the node, transaction history information indicating the history of using the plurality of patient medical my data to be recorded in a second ledger in which the transaction history information of the medical my data is recorded. 13. The method of claim 12,
receiving a plurality of requests for medical my data corresponding to predetermined condition information from an external device of a first consumer using medical my data;
When authentication of the first consumer and approval of use of the plurality of medical my data are confirmed, receiving from the node a plurality of encrypted medical my data satisfying the predetermined condition information based on the first ledger step; and
The method of operating a platform server further comprising the step of transmitting the encrypted plurality of medical my data to the external device. delete delete

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