KR102541146B1 - Method for transforming electrocardiogram into digital contents through block chain and computer-readable storage medium recorded with program for executing the same - Google Patents

Abstract

In the present invention, the user's ECG raw data is measured and transmitted to the conversion server 120 (S110), the transmitted ECG raw data is preprocessed, and a specific characteristic value is extracted by artificial intelligence (S120) , Converting a specific characteristic value to a specific hash value (S130), generating digital content corresponding to a specific hash value (S140), matching digital content to NFT in a distributed environment using a blockchain network to give ownership (S140), and dropping the NFT into an electronic wallet (S150), creating ownership of the ECG data and creating digital content corresponding to the ECG data without tampering or hacking, converting ECG data into digital content start the way

Description

Method for converting electrocardiogram data into digital content through blockchain and a recording medium containing a computer program for executing it on a computer

The present invention uses a blockchain network to create ownership of electrocardiogram data measured for each user that belongs to the user, and to create digital content corresponding to the electrocardiogram data without tampering or hacking. It is about digital contents method.

As is well known, it is becoming important to possess quality data in the field of automation and artificial intelligence in the era of the 4th industrial revolution.

Meanwhile, since the development of electrocardiography, knowledge related to electrocardiography has expanded exponentially, and information on the electrical function of the heart is obtained using electrocardiogram data obtained from electrocardiogram examination, and various heart diseases such as arrhythmia, coronary artery disease, and myocardial disease are diagnosed. Research on AI algorithms for electrocardiograms is being actively conducted, and AI algorithms detect heart failure, predict atrial fibrillation during arrhythmia rhythms, or determine gender.

As a prior art related to this, No. 10-2019-0117829 is disclosed, and a medical data monitoring system according to the prior art can not only predict various symptoms of abnormalities in the body, but also analyze data in a distributed environment using a blockchain network and By enabling AI learning data to be acquired, advanced medical services can be provided to users, and all data is managed in the cloud server so that users have the right to maintain and manage their own body data. do.

However, since ECG data is only used to check health-related information, it is necessary to create ownership of ECG data, which is an electrical signal, and use it in various ways without forgery, alteration or hacking.

Korean Patent Publication No. 10-2020-0127150 (Digital expression of user participation with directed content based on biological sensor data, 2020.11.10) Korean Patent Publication No. 10-2019-0117829 (Medical data monitoring system, 2019.10.17)

The technical problem to be achieved by the spirit of the present invention is to use a block chain network to create ownership belonging to the measured electrocardiogram data for each user, and to create digital content corresponding to the electrocardiogram data without tampering or hacking. It is to provide a method of converting electrocardiogram data into digital content through blockchain.

In order to achieve the above object, an embodiment of the present invention measures the user's ECG raw data and transmits it to a conversion server; pre-processing the transmitted electrocardiogram raw data in the conversion server and extracting a specific characteristic value by analyzing it by artificial intelligence; converting the specific characteristic value into a specific hash value; generating digital content corresponding to the specific hash value; In a distributed environment using a blockchain network, matching the digital content with an NFT to give ownership; and dropping the NFT into an electronic wallet; providing a method for converting electrocardiogram data into digital content through a block chain.

Here, the electrocardiogram data may be an electrocardiogram device of a medical institution, a portable wearable measuring device, or a portable pad measuring device that measures standard 12-lead electrocardiogram, 6-lead electrocardiogram, or single-lead electrocardiogram.

In addition, pre-processing of dividing the raw ECG data into predetermined lengths, removing noise, normalizing, and realigning may be performed.

In addition, the digital content may be any one or more of pictures, photos, music genres, letters, symbols, and signs presented from an art category for which ownership can be claimed according to a user's taste.

Also, the music genre may be music having a beat or rhythm matching the heart rate analyzed from the electrocardiogram data.

Also, the digital content may include a user's name, a measurement location of the electrocardiogram data, or additional information of a measurement time of the electrocardiogram data.

In addition, the method may further include lending, donating, exchanging, or selling the digital content for which ownership has been granted.

On the other hand, another embodiment of the present invention provides a recording medium in which a computer program is written for executing the electrocardiogram data digital content conversion method through the block chain listed above on a computer.

According to the present invention, by using a blockchain network, ownership of electrocardiogram data measured for each user is created by the corresponding user, and digital contents corresponding to the electrocardiogram data are created without tampering or hacking to own, donate, lend, or exchange. Or, there is an effect that can enable various economic activities of sales.

1 is a schematic flowchart of a method for converting electrocardiogram data into digital content through a block chain according to an embodiment of the present invention.
FIG. 2 illustrates a system implementing the method of converting electrocardiogram data into digital content through the block chain of FIG. 1 .
3 illustrates an electrocardiogram potential vector and an ST segment.

Hereinafter, embodiments of the present invention having the above-described characteristics will be described in more detail with reference to the accompanying drawings.

According to an embodiment of the present invention, a method for converting ECG data into digital content includes measuring raw ECG data of a user and transmitting the raw ECG data to the conversion server 120 (S110), pre-processing the transmitted ECG raw data, and using artificial intelligence. Analyzing and extracting a specific characteristic value (S120), converting a specific characteristic value into a specific hash value (S130), generating digital content corresponding to a specific hash value (S140), distributing using a blockchain network Including the step of matching digital contents with NFTs in the environment and granting ownership (S140), and dropping the NFTs into an electronic wallet (S150), ownership of electrocardiogram data is created and corresponding to electrocardiogram data without tampering or hacking. The point is to create digital content that

Hereinafter, with reference to FIGS. 1 to 3, the detailed configuration of the above-described electrocardiogram data conversion method into digital content is as follows.

First, in the step of measuring raw ECG data (S110), raw ECG data is measured from the user's body using the ECG data measurement unit 110 and transmitted to the conversion server 120.

Here, the electrocardiogram data measurement unit 110 is a standard 12-lead electrocardiogram, a limb 6-lead electrocardiogram, a precordial 6-lead electrocardiogram, or a single-lead electrocardiogram. ) or a portable pad measuring device 112.

For example, referring to FIG. 3 , the electrocardiogram data measuring unit 110 measures aVL, I, aVR, II, VF, III, V ₁ , V ₂ , V ₃ , V ₄ , V ₅ , and V ₆ standard 12-lead electrocardiograms. , extremity 6-lead ECG data of aVL, Ⅰ, aVR, Ⅱ, VF, Ⅲ measured in contact with the user's limb, or chest 6-lead ECG data of V ₁ , V ₂ , V ₃ , V ₄ , V ₅ , V ₆ It may be an electrocardiogram device of a medical institution, a portable wearable measuring device 111, or a portable pad measuring device 112 capable of transmitting wired or wirelessly to the conversion server 120.

Next, in the characteristic value extraction step (S120), in the conversion server 120, the ECG raw data transmitted by wire or wirelessly from the ECG data measuring unit 110 is preprocessed, analyzed by artificial intelligence, and specific characteristic values for each user are extracted. .

For example, by the preprocessing module 121 of the conversion server 120, it is divided into predetermined lengths, noise such as irregular beats is removed (Noise Filtering), normalization (Normalization), rearranged (Re-arranged), Preprocessing may be performed to generate electrocardiogram data.

Here, the preprocessing module 121 may remove artifacts by removing 1 second each of the beginning and end of digitally stored ECG data for 10 seconds to secure ECG data of higher quality. .

In addition, the analysis module 122 of the conversion server 120 may analyze the preprocessed ECG data by artificial intelligence to extract specific characteristic values for each ECG profile corresponding to different ECG patterns for each user. For example, characteristic values of electrocardiogram data that are different for each user from the amplitude, phase, period, etc. of P wave, Q wave, R wave, T wave, PR interval, PR segment, QRS complex, ST segment, etc. can be extracted.

Next, in the hash value conversion step (S130), the specific characteristic value is abbreviated by the hash function of the hash value conversion module 123 and converted into an encrypted specific hash value, and the electrocardiogram data of the specific user You can create a specific hash value that belongs to .

Next, in the digital content generation step (S140), digital content corresponding to the specific hash value generated previously is generated by the digital content generator 140 equipped with artificial intelligence.

Here, the digital content may be any one or more of pictures, photos, music genres, letters, symbols, and signs presented from an art category for which ownership can be claimed according to a user's taste.

That is, according to the user's selection, one or more of the major categories of art categories such as painting, photograph, video, video art, music genre, text, sign, and sign may be selected, and in detail, when painting is selected, portrait, abstract, and landscape. , watercolor, etc. can be additionally selected, and according to the additionally selected classification, specific art supplies can be applied by artificial intelligence to draw a picture that can reflect a specific hash value, and the music genre can reflect a specific hash value. It can be generated as music with a beat or rhythm that matches the heart rate analyzed from electrocardiogram data to give psychological stability, and can be created with letters, fonts, sentences, signs, and symbols that can reflect a specific hash value. may be created.

Accordingly, since the characteristics of the ECG data for each user are different, the digital content cannot be probabilistically identical. Therefore, unique digital content in which the characteristics of the ECG data for each user are reflected can be generated.

On the other hand, the previously created digital content may include the user's name, ECG data measurement location, or ECG data measurement time additional information, so that each user's ownership is classified and specified, and additional information is reflected when digital content is created It can be used to draw pictures, create music, or create letters, fonts, sentences, signatures, symbols, etc., and signatures can be used in place of normal seals.

In addition, a hash value that can be integrated from the raw electrocardiogram data of users measured by lovers, family groups, and friends is created, and additional information is included to create digital contents corresponding to them to give joint ownership by group rather than by individual. It is also possible to commemorate the collection of certain paintings, music, letters, sentences, symbols, etc.

In addition, as digital content, it may include an animated video composed of a pattern, playback speed, and color generated for each specific hash value. You can also check the pulse visually.

In addition, the digital content may include pictures implemented by replicating meadows, deserts, hills, mountains, lakes, rivers, and seas having a specific color, specific height, and specific depth for each specific hash value.

In addition, digital content can be provided by predicting the user's emotional or psychological state corresponding to the user's ECG data, simulating facial expressions expressing the user's emotional or psychological state through deep fakes, and implementing them as pictures, animations, or real-life images. .

Next, in the step of granting ownership (S150), the digital content is matched with a Non-Fungible Token (NFT) in a distributed environment using a blockchain network to grant ownership of the digital content and claim it, so that the digital content and its corresponding It is possible to prevent forgery or hacking of electrocardiogram data.

For reference, an NFT is a unique token that exists only on a blockchain network, and when you own that token, you can claim ownership of matched digital content.

Next, in the electronic wallet drop step (S160), the NFT is dropped into the electronic wallet 160 and stored without forgery or alteration or hacking.

On the other hand, on a blockchain network, it is also possible to rent, donate, exchange or sell digital content with ownership.

On the other hand, another embodiment of the present invention provides a recording medium in which a computer program is written for executing the electrocardiogram data digital content conversion method through the block chain listed above on a computer.

Therefore, by the above-mentioned electrocardiogram data digitalization method through blockchain, by using a blockchain network, ownership of the electrocardiogram data measured for each user is created to belong to the user, and the electrocardiogram data is stored without tampering or hacking. Corresponding digital content can be created to enable various economic activities such as ownership, donation, rental, exchange, or sale.

The embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical spirit of the present invention, so various equivalents that can replace them at the time of this application. It should be understood that there may be waters and variations.

S110: electrocardiogram raw data measurement step
S120: Characteristic value extraction step
S130: Hash value conversion step
S140: digital content creation step
S150: Ownership grant step
S160: Electronic wallet drop step
110: electrocardiogram data measuring unit 111: portable wearable measuring device
112: portable pad measuring device 120: conversion server
121: preprocessing module 122: analysis module
123: hash value conversion module 140: digital content generator
160: electronic wallet

Claims (8)

measuring raw electrocardiogram data of a user and transmitting the data to a conversion server;
pre-processing the transmitted electrocardiogram raw data in the conversion server and extracting a specific characteristic value by analyzing it by artificial intelligence;
converting the specific characteristic value into a specific hash value;
generating digital content corresponding to the specific hash value;
Granting ownership by matching the digital content to the NFT in a distributed environment using a blockchain network; and
Dropping the NFT to an electronic wallet; including
A method of converting electrocardiogram data into digital content through blockchain.
According to claim 1,
Characterized in that the electrocardiogram data is measured through an electrocardiogram device, a portable wearable measuring device, or a portable pad measuring device of a medical institution that measures standard 12-lead electrocardiogram, 6-lead electrocardiogram, or single-lead electrocardiogram,
A method of converting electrocardiogram data into digital content through blockchain.
According to claim 2,
Characterized in that performing preprocessing of dividing the raw electrocardiogram data into preset lengths, removing noise, normalizing, and realigning,
A method of converting electrocardiogram data into digital content through blockchain.
According to claim 1,
Characterized in that the digital content is any one or more of pictures, photos, music genres, letters, symbols, and signs presented from art categories that can claim ownership according to the user's taste.
A method of converting electrocardiogram data into digital content through blockchain.
According to claim 4,
Characterized in that the music genre is music having a beat or rhythm matching the heart rate analyzed from the electrocardiogram data,
A method of converting electrocardiogram data into digital content through blockchain.
According to claim 4,
Characterized in that the digital content includes the user's name, the measurement location of the electrocardiogram data, or additional information of the measurement time of the electrocardiogram data.
A method of converting electrocardiogram data into digital content through blockchain.
According to claim 1,
Characterized in that it further comprises the step of performing rental, donation, exchange or sale of the digital content to which ownership has been granted.
A method of converting electrocardiogram data into digital content through blockchain.
A recording medium in which a computer program for executing the method of converting electrocardiogram data into digital content through a block chain according to any one of claims 1 to 7 is written on a computer.

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