KR102313675B1 - Block chain-based crytography donation server and donation method without limitation to donation target - Google Patents

Abstract

The present invention relates to a cryptocurrency donation server that has no limit on a donation target, creates an account for transaction generation and transaction between a donor and a beneficiary, and registers a user who receives information on the type or amount of the donation target that the donor wants to donate module; The donation target includes a carrier mileage, energy possessed by the donor, or sensor information obtained, and a request for requesting authentication of the owner of the donation target or inquiry of the donation target information to a cooperative organization that has information on the donation target module; a conversion module that converts the donation object into a tradable cryptocurrency within the block chain; a transmission module for transmitting the cryptocurrency to the beneficiary's account; and a memory module for storing the transaction as a block, wherein the transaction converts a donation object that is difficult to transact into cryptocurrency, including the donation object selected by the donor, the donor's cryptocurrency conversion history, or donation history. Therefore, it is possible to lower the donation barrier of the donors, it is characterized in that it is possible to increase the donation rate accordingly.

Description

Blockchain-based cryptocurrency donation server and donation method with no limit on donation targets

The present invention relates to a cryptocurrency donation server and a donation method based on a block chain, and more particularly, to a cryptocurrency donation server and a donation method to which the second-generation blockchain Ethereum platform is applied.

Donation refers to the act of donating money or goods for free to use for charitable projects or public purposes. made in the form Recently, however, the subject of donation is not limited to simple goods, but there are various types of donation such as hair donation to donate one's own hair for children with cancer or leukemia, and talent donation to donate one's talents or special skills.

As the number of people who can donate becomes diversified, it is also possible to donate using points and mileage paid for payment by telecommunication companies or service providers. Telecommunication company membership points and credit card points are not cumulative, but are paid out at the beginning of the year and are exhausted after the period has elapsed. As of October 2017, the number of mileage points destroyed by the three mobile carriers in the last five years amounted to about 170 billion won as 59.3% of the membership points of the telecommunication companies were not used within the validity period. Also, credit card points disappeared by an average of 115.3 billion won over the past four years from 2008 to 2012. You can also consider making a donation through points or mileage that expires in this way.

The existing donation system is a centralized system formed around a donation organization. When a donor makes a donation to a donation organization, the donation is made to the beneficiary by the donation organization, and all records are managed by the donation organization. Therefore, the donor cannot know the use of the donation by the donor unless the donor discloses it. Even if the donation group discloses the usage details, it is impossible to know whether the information is true, so there may be doubts about the transparency of the use of the donation.

In addition, distrust in donations has spread due to recent cases of donation embezzlement revealed through the media and unclear details of donations used by donation groups. Therefore, a method that the donor can trust by ensuring the transparency of the donation system is required.

Blockchain is a data-top tamper prevention technology that distributes and stores managed data in the form of a chain created based on a peer-to-peer (P2P) format instead of a centralized system. Since a plurality of blocks are bundled and stored in a chain form, the name is called a blockchain, and they are sequentially connected according to the passage of time. Since blockchain is a distributed ledger structure, everyone who participates in the blockchain network owns a ledger for transactions, so when checking transaction details, it is necessary to collate and verify the ledger owned by all users. When an additional transaction is made to add a block, fraudulent transactions can be prevented because the validity of the transaction must be verified by everyone participating in the blockchain network.

In addition, the existing centralized system has a risk of being hacked, but since all users store data in the block chain, it is necessary to attack all user transaction data in order to tamper with the above. Therefore, it is virtually impossible to hack, so the transparency of the transaction can be recognized. In addition, since there is no need for a central system, there is an advantage in that the cost of managing the central server can be eliminated.

The Ethereum platform, the second-generation blockchain, is designed to extend the blockchain protocol limited to financial transactions to all fields. to provide. In other words, it is a platform that allows anyone to create and use a decentralized application called dApp (DApp) for other purposes as well as as money. In other words, Ethereum is an open platform that sees the blockchain as a database, can upload all assets, and can even program how each asset is driven or traded.

Ethereum features next-generation smart contracts and a distributed application platform. A smart contract is a key feature of the Ethereum platform, which is a set of software codes implemented on a blockchain platform. Existing contracts are written in writing, and in order to fulfill the terms of the contract, a real person must perform the contract. However, digital contracts enable reliable execution of transactions without third parties. According to the principle of 'code is law', each asset is connected digitally after a bilateral agreement is reached, and a contract is drawn up and executed. All processes are automatic. In other words, a smart contract is a computer program that automates the consensus process.

In a smart contract, when there is a buyer and a seller who want to trade with each other, the seller registers the goods they want to sell on the blockchain. At this time, the smart contract registers a new node in the corresponding block chain according to the transaction and updates it in real time. Buyers can use Query to inquire about the blockchain containing the transaction, and if they purchase an item, the smart contract updates the database of the node. Smart contracts have the advantage of reducing contract execution costs, potential disputes, and contract uncertainty by automatically fulfilling contracts when conditions are fulfilled.

Related Prior Art Korean Patent Application Laid-Open No. 10-2017-0123861 (hereinafter abbreviated as 'Prior Patent 1') establishes a donor virtual account in the donation management server to ensure trust between the donor and the supporter, and the donor virtual account It stores information on the block chain and discloses a donation system that transmits information about donation usage history or usage plan to the donor terminal.

Related Prior Art Korean Patent Registration No. 10-1784197 (hereinafter abbreviated as 'Prior Patent 2') relates to a donation system using assets including digital virtual currency based on a block chain. Prior Patent 2 discloses a system that can donate between donors and beneficiaries using digital barcodes, which includes not only virtual currency but also real assets and donors' organs and talents.

Accordingly, the present applicant devised an improved donation server and donation method to provide a donation object that has not been previously presented, such as points or mileage, electrical energy obtained from self-contained solar panels, and other sensor information, through the platform of the block chain. did it

Korean Patent Publication No. 10-2017-0123861 Korean Patent Registration No. 10-1784197

The present invention aims to provide a cryptocurrency donation server and donation method that can increase the participation rate by increasing the transparency and reliability of donation based on blockchain, which is a tamper-proof technology on distributed data, and lowering the donation barrier by removing the limit of the donation target.

In order to achieve the above object, the present invention, in a cryptocurrency donation server without a limit on the object of donation, creates an account for transaction creation and transaction between donor and beneficiary, a user registration module for receiving information about; The donation target includes a carrier mileage, energy possessed by the donor, or sensor information obtained, and a request for requesting authentication of the owner of the donation target or inquiry of the donation target information to a cooperative organization that has information on the donation target module; a conversion module that converts the donation object into a tradable cryptocurrency within the block chain; a transmission module for transmitting the cryptocurrency to the beneficiary's account; and a memory module for storing the transaction as a block, wherein the transaction converts a donation object that is difficult to transact into cryptocurrency, including the donation object selected by the donor, the donor's cryptocurrency conversion history, or donation history It is a feature that makes it possible.

Preferably, by using the Ethereum platform having a smart contract function, Ether (ETH) can be used as a currency unit.

Preferably, the donation target may be points or mileage of existing telecommunication companies and service providers.

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Preferably, the conversion module may convert to cryptocurrency by estimating the value of energy or virtual currency held based on the KRW market price of the donation target.

Preferably, the user registration module receives the donation condition set by the donor, and the transmission module may transmit the converted cryptocurrency to the beneficiary's account when the donation condition is satisfied.

In addition, in order to achieve the above object, the present invention provides a cryptocurrency donation method without limitation on a donation target performed in a server, comprising the steps of: (a) registering a user by creating an account for transaction creation and transaction between a donor and a beneficiary; (b) receiving the donor's personal information and requesting the donor's own energy, virtual currency, or a partner organization holding at least one donation object to inquire about the donation object; (c) converting the donation object into a tradable cryptocurrency within the block chain; (d) transmitting the cryptocurrency to the beneficiary's account; and (e) storing the transaction in a block, wherein the transaction converts a donation object that is difficult to transact, including the donation object selected by the donor, the donor's cryptocurrency conversion history, or donation history into cryptocurrency It is characterized in that the donation is possible.

According to the present invention, based on the block chain, transactions by actual donations are stored in blocks. As the blockchain is a distributed ledger structure, everyone who participates in the blockchain network owns the ledger for donations, so it can contribute to the establishment of a stable donation culture by eliminating distrust of donation groups and donation systems and ensuring transparency. In addition, it is possible to donate points or mileage from telecommunication companies or various service companies by converting them into donationable cryptocurrencies, or by converting electrical energy obtained from solar tube sensors into cryptocurrencies. As such, there is an advantage in that it is possible to lower the donation barrier of donors because there is no restriction on the donation target, and thus the donation rate can be increased.

1 shows a process in which a donation is made through a cryptocurrency donation server according to an embodiment of the present invention.
Figure 2 shows a configuration diagram of a cryptocurrency donation server according to an embodiment of the present invention.
3 is a flowchart illustrating a process in which a transaction generated during a donation process is stored in a block and a block chain is formed according to an embodiment of the present invention.
4 shows a block-chain-based cryptocurrency donation method that is not limited to a donation target performed in a server according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to the contents described in the accompanying drawings. However, the present invention is not limited or limited by the exemplary embodiments. The same reference numerals provided in the respective drawings indicate members that perform substantially the same functions.

Objects and effects of the present invention can be naturally understood or made clearer by the following description, and the objects and effects of the present invention are not limited only by the following description. In addition, in describing the present invention, when it is determined that a detailed description of a known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

1 shows a process in which a donation is made through the cryptocurrency donation server 10 according to an embodiment of the present invention. According to an embodiment of the present invention, the cryptocurrency donation server 10 converts various types of assets such as energy, virtual currency, or goods owned by the donor into cryptocurrency to enable donation. As an embodiment of the cryptocurrency referred to herein, the cryptocurrency may be an MDM coin. MDM coins are convertible into various types of currencies that can be traded on the blockchain (eg, bitcoin, ethereum, etc.). At this time, the currency to which the MDM coin is converted may be a new type of coin or token.

The donor can create a donor account for transaction creation and transaction by inputting his or her personal information into the cryptocurrency donation server 10 . The donor selects and enters the energy, cryptocurrency, or goods they have in the donor account. The donation target is converted into a tradable cryptocurrency, and the cryptocurrency is donated to the beneficiary.

Through the cryptocurrency donation server 10 according to the present embodiment, the donor can donate without limitation to the donation target. At this time, the donation target referred to herein may include the donor's energy, virtual currency, goods, and sensor information obtained by the donor. Retained energy includes electrical energy obtained through solar sensors, and virtual currency includes points or mileage paid when payment is made by telecommunication companies or service providers. Therefore, consumers can donate digital points of telecommunication companies or service companies that are disappearing without being aware of it, so people can easily participate in the donation.

The cryptocurrency donation server 10 according to the present embodiment may enter into an agreement with the cooperative organization 30 having at least one of various donation objects in order to convert various donation objects into a unified cryptocurrency. The cryptocurrency donation server 10 may cooperate with the cooperative organization 30 to request the donor's donation object to be inquired from the cooperative organization 30 , and trust in the donation object may be guaranteed as a result of the inquiry. The cooperative organization 30 according to this embodiment includes telecommunication companies and service companies that manage donor points or mileage, and Korea Electric Power Corporation, which can purchase electric energy obtained from a solar sensor. By confirming the donation target from the cooperative organization 30 , the amount of energy, virtual currency, or goods possessed by the donor can be accurately identified and the donor's possession can be guaranteed.

When a donor selects a donation target through the cryptocurrency donation server 10 and converts it to cryptocurrency and a donation is made to a beneficiary, the donation target selected by the donor in the transaction information of the block, conversion history to cryptocurrency, donation history of the donor, and The beneficiary's beneficiary history is recorded. At this time, the transaction details are shared with everyone participating in the cryptocurrency donation server 10 based on the block chain. Therefore, the donation system can be decentralized, and donors can check whether their donations are used for their original purpose through the blockchain, ensuring the reliability of donations.

The cryptocurrency donation server 10 may transmit the block chain storing the transaction generated during the donation process to each donor account and beneficiary account. Since the blockchain is stored in each distributed account, arbitrary manipulation by the operator of any one account is impossible, so the integrity of the data stored in the blockchain can be secured, and data access and processing time can be shortened.

Experimental Example 1. development environment

The development environment of the blockchain-based cryptocurrency donation server with no restrictions on the target of donation is divided into a front end for user interface implementation and a back end for writing and distributing smart contracts. First, since the front end is based on a web page, languages such as html, css, and javascript are used, and when calling a smart contract function, the Web3.js library is used to process certain logic according to a specific event in the user's wallet. It also uses Metamask, an extension that allows you to use DApps in a web browser environment.

On the back end, after installing Ubuntu through VirtualBox on the host OS, go-ethereum (hereafter geth) is built. And it uses Remix (browser-solidity) for smart contract code writing, compilation and execution, and distribution by blockchain. Ganache is used as a Test RPC to perform simulation tests without ether without actual mining in the development stage after smart contract creation. After testing in Test RPC, use Ropsten for testing in TestNet environment.

Transactions by actual donations are stored in blocks, but donor personal information or organization information uses AWS (Amazon Web Services) for management in a central database. In addition, Arduino and solar thermal sensor are used to obtain electrical energy using solar heat that can be obtained in real life. For Arduino coding, Arduino IDE 1.8.7 is used.

Experimental Example 2. How to implement

As mentioned earlier in the development environment, the blockchain-based cryptocurrency donation server with no restrictions on the target of donation is divided into a front end for user interface implementation and a back end for writing and distributing smart contracts.

First, the front end uses Ethereum's JavaScript API, Web3.js, to communicate the contract deployed in html with geth through JSON RPC, and test the contract written in solidity through truffle and deploy it to the Ethereum network. And in the back end, after running geth in the Ubuntu environment through VirtualBox, the smart contract written through Remix is distributed to the blockchain, and the test is conducted through the Test RPC virtual environment using Ganache. After that, it is distributed to Ropsten TestNet, a private network, and tests for MainNet distribution where actual Ethereum transactions are performed. In addition, it is possible to donate by sensing the data obtained by the solar sensor using the Arduino and converting the electrical energy into coins to be used in the block chain or directly transacting.

Figure 2 shows the configuration of the cryptocurrency donation server 10 according to an embodiment of the present invention. The cryptocurrency donation server 10 may include a user registration module 101 , a request module 103 , a conversion module 105 , a transmission module 107 , and a memory module 109 . This configuration is defined for convenience of description and may be implemented without being physically separated.

The cryptocurrency donation server 10 may use the Ethereum platform having a smart contract function to leave a transaction record in the block chain. Smart contracts overcome the limitations of using loops in the past, making it possible to store various states and build repeatable systems. The smart contract according to an embodiment of the present invention functions to allow donations to be made only under conditions set by the donor. When a donor sets a donation condition, when the donation condition is satisfied, the donation target is converted into cryptocurrency and transferred to the beneficiary's account.

The user registration module 101 may create an account for creating and transacting a transaction between a donor and a beneficiary. Using the cryptocurrency donation server 10, the donor and the beneficiary register personal information on the server, and the donor registers energy, virtual currency, or goods possessed by the donor to be donated.

The user registration module 101 may receive a donation condition set by a donor. This is called a smart contract. In a smart contract, when a donor writes a donation condition as a smart contract code, the written code is compiled into byte code and inserted into a block. The code inserted into the block is distributed and stored in the blockchain, creating a smart contract. The generated donation conditions are shared with users of the cryptocurrency donation server 10 .

The request module 103 may receive the donor's personal information and request the donor's own energy, virtual currency, and/or goods to inquire about the donor's donation target from the cooperative organization 30 that has at least one donation target. By inquiring the donor's own energy, virtual currency, or the cooperative organization 30 holding the goods, the amount of the donation target can be accurately identified and it can be ensured that the donor is owned.

The conversion module 105 may convert the donation object into a tradable cryptocurrency within the block chain, and converts the donation object into cryptocurrency by estimating the value of energy or virtual currency based on the KRW market price of the donation object. When the donor selects a donation target, the cryptocurrency donation server 10 converts it to MDM coin, and it is converted into the cryptocurrency of the corresponding block chain to be donated, for example, Ethereum. At this time, the converted MDM coin follows the market price of the blockchain cryptocurrency at the moment of conversion, so the value of the donation target may be set differently.

In this embodiment, based on Ethereum, which is one of the block chain cryptocurrencies, it is assumed that the average of Ether (ETH), the monetary unit of Ethereum at the moment of conversion, is 155,000 won per exchange per Ether. Since it is converted to 1 ETH per 100 MDM coins, one MDM coin has a value of about 1,550 won (0.01 ETH). In the case of points or mileage, the value of 1 point or 1 mile is set at 1 won, and in the case of electric energy, it is set at 100 won per 1000w (Korea produces 324kw of solar electricity per month on average). That is, 155,000 points, mileage, or 155,000w of electrical energy is converted into 100 MDM coins to become 1ETH.

The conversion module 105 may convert a donation target according to the donation condition into cryptocurrency when the donation condition is satisfied if the donor inputs the donation condition into the user registration module. In this embodiment, when the donor enters into the user registration module that 'I will convert to Ethereum when 1 million won is collected' and registers it in the block chain, the conversion module 105 is ether equivalent to 1 million won when the actual 1 million won is collected. convert to cryptocurrency.

The transmission module 107 may transmit the converted cryptocurrency to the beneficiary's account. The transmission module 107 transmits the cryptocurrency according to the donation condition to the beneficiary's account when the donation condition is satisfied if the donor inputs the donation condition into the user registration module.

In this embodiment, if the donor enters into the user registration module 'If 1 million won is collected, I will donate to group A' and registers it in the block chain, it is converted into cryptocurrency and automatically added to the account of group A when the actual 1 million won is collected. is sent

The memory module 109 may generate a block including information about donation and store the transaction generated in the donation process in the block. Thereafter, when additional donations are made, another block may be created to continuously store information on additional donations. The transaction stored in the block may include a donation target selected by the donor, the donor's cryptocurrency conversion history, the donation history, and the beneficiary's benefit history.

The memory module 109 may store the donation conditions entered by the donor in the user registration module 101 as a transaction in a block, and the beneficiary satisfies the donation conditions and the cryptocurrency is transferred to the beneficiary's account and the donated transaction details are also transactional can be stored in blocks.

3 is a flowchart illustrating a process in which a transaction generated in the donation process is stored in a block and a block chain is formed according to an embodiment of the present invention.

A transaction means a transaction and refers to the processing process that must be completed inside the computer system to record external transactions and the data transmitted during the process. A transaction consists of an input and an output. In this case, the input value is in the form of the output value of the previous transaction.

One block includes the calculated block hash value, block header, and multiple transactions that are transaction details. The block header consists of 6 pieces of information: version, previousblockhash, merklehash, time, bits, and nonce. 5 of the above 6 pieces of information except for nonce are constants whose values are fixed. The block hash is a value calculated by applying the SHA256 hash function with 6 pieces of information in the block header as input values. It consists of 32 bytes and serves as an identifier for the block. At this time, since it is virtually impossible to output the same block hash value for different data, and if the original input is changed even for a single character or space, a hash value completely different from the existing hash value is generated. can be used when A new block is created when the block hash value is generated less than the difficulty value specified by bits. The block currently being created includes the previousblockhash value, which is the block hash value of the block that was created immediately, so that the previous block and the new block are connected to form a continuous chain.

Transaction details generated in the donation process made through the cryptocurrency donation server 10 are stored as transactions in the first block. The stored transaction includes a donation target selected by the donor, the donor's conversion history, the donor's donation history, the beneficiary's benefit history, and the like. After that, if the donor makes an additional donation, a new transaction and new block are created. Newly created twice?? A new transaction is stored in a block, and it is further stored as a chain including the previousblockhash value of the first block.

Figure 4 shows a block-chain-based cryptocurrency donation method that is not limited to a donation target performed in a server as another embodiment according to the present invention. Step (a) of user registration in the cryptocurrency donation server (10), step (b) of requesting an inquiry, step (c) of converting to cryptocurrency, step (d) of transmitting to the beneficiary’s account, the block It may include a step (e) of being stored.

Step (a) refers to the step of registering a user to create an account for transaction creation and transaction between the donor and the beneficiary. Step (b) means a step of receiving the donor's personal information and requesting the donor's own energy, virtual currency, or a partner organization that has at least one donation object to inquire about the donation object. Step (c) refers to the step of converting the donation target into a tradable cryptocurrency within the blockchain. Step (d) refers to the step of transferring cryptocurrency to the beneficiary's account. Step (e) means that the transaction is stored in a block. The transaction includes the donation object selected by the donor, the donor's cryptocurrency conversion history, or the donation history. Steps (a) to (e) show the process performed in the embodiment of the cryptocurrency donation server 10 described above, and the meaning and significance of each step has been described above, and redundant descriptions are omitted.

Although the present invention has been described in detail through representative embodiments above, those of ordinary skill in the art to which the present invention pertains will understand that various modifications are possible within the limits without departing from the scope of the present invention with respect to the above-described embodiments. will be. Therefore, the scope of the present invention should not be limited to the described embodiments and should be defined by all changes or modifications derived from the claims and equivalent concepts as well as the claims to be described later.

10 : Cryptocurrency donation server
101: user registration module
103: request module
105: conversion module
107: transmission module
109: memory module
30: partner organization

Claims (7)

In the cryptocurrency donation server with no limit on the donation target,
a user registration module for generating an account for transaction creation and transaction between a donor and a beneficiary, and receiving information on the type or amount of the donation object to which the donor wishes to donate;
The donation target includes a carrier mileage, energy possessed by the donor, or sensor information obtained, and a request for requesting authentication of the owner of the donation target or inquiry of information on the donation target to a cooperative organization that has information on the donation target module;
a conversion module that converts the donation object into a tradable cryptocurrency within the block chain;
a transmission module for transmitting the cryptocurrency to the beneficiary's account; and
A memory module for storing the transaction as a block;
The transaction is
Cryptocurrency donation server, characterized in that the donation object selected by the donor, the donor's cryptocurrency conversion history, or the donation object that is difficult to transact, including the donation history, is converted into cryptocurrency to enable donation.
The method of claim 1,
Cryptocurrency donation server, characterized in that it uses Ether (ETH) as a currency unit by using the Ethereum platform with a smart contract function.
The method of claim 1,
The donation target is
Cryptocurrency donation server, characterized in that the points or mileage of existing telecommunication companies and service companies.
delete The method of claim 1,
The conversion module is
Cryptocurrency donation server, characterized in that it is converted into cryptocurrency by estimating the value of retained energy or virtual currency based on the KRW market price of the donation target.
The method of claim 1,
The user registration module,
Input the donation conditions set by the donor,
The transmission module is
Cryptocurrency donation server, characterized in that when the donation condition is satisfied, the converted cryptocurrency is transmitted to the beneficiary's account.
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