KR102019478B1 - The apparatus and method of activation for energy transaction by using block chain of hybrid - Google Patents

Abstract

The present invention provides a hybrid blockchain type energy transaction activating device comprising a division type energy colorcoin module and a blockchain type energy transaction mediation module and a method for the same. The hybrid blockchain type energy transaction activating device comprises the division type energy colorcoin module (100), the blockchain type energy transaction mediation module (200), an energy RMBC type verification module (300), and an application module (400) for a power consumer. The hybrid blockchain type energy transaction activating device can calculate the amount of new renewable energy generated at home and a power plant by using an energy colorcoin deformation robot engine unit by dividing the new renewable energy to correspond to a reference value of an energy colorcoin. So, various kinds of the energy colorcoins can be formed to be customized one to one in accordance with a purpose for use. Therefore, the hybrid blockchain type energy transaction activating device comprising the division type energy colorcoin module and the blockchain type energy transaction mediation module can improve the perception of buying renewable energy at low cost.

Description

Hybrid blockchain-type energy transaction activation device and method consisting of split-type energy colorcoin module and blockchain-type energy transaction brokerage module {THE APPARATUS AND METHOD OF ACTIVATION FOR ENERGY TRANSACTION BY USING BLOCK CHAIN OF HYBRID}

In the present invention, it is possible to calculate the amount of renewable energy generated through the home and power generation complexes in the microgrid according to the reference value of the energy color coin, to form various types of energy color coin 1: 1 customized according to the intended use. Split-type energy color coin module that can select any one of P2P, P2C, C2P on the blockchain network and act as a broker of energy transactions centering on energy colorcoin for any power consumer application module The present invention relates to an apparatus and method for activating a hybrid blockchain-type energy transaction consisting of a blockchain-type energy transaction brokerage module.

As renewable energy, such as solar and wind power, is activated, individuals can also produce electricity.

In this way, the generated renewable energy is made through a microgrid power trading system, directly through the KEPCO or an intermediary sales agency to sell directly to the electric power consumer, and to increase the revenue.

However, this is because the amount of renewable energy generated is a large-capacity package structure, so that even if the user wants to purchase the product according to the purpose and capacity of the power user, it not only causes a problem of having to pay at a high cost, and also complicated transaction, Since institutions require commissions in exchange for brokerage, the profits of individual producers are lowered, which leads to a contraction of electricity trade.

In addition, although transactions are made through blockchain network communication during power transactions, there are frequently problems in which the transaction contents are leaked or forged, resulting in financial damages due to blockchain networking hacking or hacking of transaction contents.

Domestic Patent Publication No. 10-1848896

In order to solve the above problems, in the present invention, the amount of renewable energy generated through the home and power generation complexes can be divided and calculated according to the reference value of the energy color coin through the energy color coin deforming robot engine, and according to the intended use 1: 1 It is possible to form various kinds of customized energy color coins, and through the blockchain-type energy trading intermediary module, instead of the energy randomized mesh blockchain (RMBC) type verification module, the split-type energy color coin module or power consumer application The module can be authenticated based on the certification list, and the smart contracts for the approved energy color coin transaction approval can be transferred to the split energy color coin module, and through the blockchain energy transaction intermediation module, P2P, Select one of P2C and C2P for any power demand application Provides a hybrid blockchain-type energy transaction activation device and method consisting of a split type energy colorcoin module and a blockchain-type energy transaction intermediary module that can act as an energy transaction brokerage centering on energy color coin. There is a purpose.

In order to achieve the above object, a hybrid blockchain-type energy transaction activation device comprising a split-type energy colorcoin module and a blockchain-type energy transaction intermediary module according to the present invention

Sensing the amount of renewable energy generated in homes and power generation complexes located in the micro grid, and splitting it to the standard value of energy color coin, and then creating 1: 1 customized energy color coin and energy dispersion ledger of energy color coin. Split-type energy color coin module 100 for transmitting the smart contract related to the color coin transaction approval to the blockchain-type energy transaction intermediary module,

Between the splitting energy colorcoin module and the energy randomized mesh blockchain (RMBC) type verification module, it is checked whether the splitting energy colorcoin module requesting a smart contract for approval of the energy colorcoin transaction is a certified splitting energy colorcoin module. Then, in the case of the certified split type energy color coin module, the smart contract regarding the approval of the trade of energy color coins requested by the energy color coin module is transferred to the energy RMBC type verification module, and the energy RMBC type verification module toward the split type energy color coin module. Controls to transmit smart contracts for approved energy color coin transaction approval through P2P, P2C, C2P, and selects one of P2P, P2C, and C2P for energy transaction based on energy color coin. Blockchain-type energy trading for brokerage Modules 200,

A smart contract for approval of energy colorcoin transactions, which is composed of a multi-cell energy verification client in a mesh structure and transmitted from a blockchain-type energy transaction brokerage module, based on each energy distribution ledger included in a plurality of verification machines. An energy RMBC type verification module 300 that correctly writes and verifies that there are no errors and changes, and

Achievement is achieved by being connected to the blockchain-type energy transaction brokerage module and the energy RMBC-type verification module, respectively, and participating in the blockchain network, and comprising an application module for power consumers 400 to acquire and purchase energy color coins for the desired transaction amount. do.

In addition, the hybrid blockchain-type energy transaction activation method consisting of a split-type energy colorcoin module, blockchain-type energy transaction brokerage module according to the present invention is

The split energy colorcoin module senses the amount of renewable energy generated in homes and power generation complexes located in the micro grid, splits it to the standard value of the energy color coin, and then uses 1: 1 customized energy color coin and energy color coin. Generating an energy distribution ledger of (S100),

In the split-type energy color coin module, delivering a smart contract regarding the approval of the energy color coin transaction to the block chain energy transaction intermediary module (S200),

After checking whether or not the split type energy color coin module is a split type energy color coin module that has requested a smart contract for approval of the energy color coin transaction through the block chain type energy trading brokerage module, then the certified split type energy color coin module In step S300, the smart contract regarding the energy color coin transaction approval requested by the energy color coin module is transferred to the energy RMBC type verification module (S300);

In the energy RMBC type verification module, a plurality of cell type energy verification clients have a mesh structure and are transferred from a blockchain type energy transaction brokerage module based on each energy distribution ledger included in the plurality of verification machines. Verifying that the smart contract is correctly created for the approval, there are no errors and changes (S400),

Transmitting a smart contract regarding the approved energy color coin transaction approval through the energy RMBC type verification module to the split type energy color coin module through the block chain type energy transaction intermediary module (S500);

Through the blockchain-type energy transaction brokerage module, selecting any one of P2P, P2C, C2P to act as an energy transaction brokerage centering on energy color coin targeting any power consumer application module (S600),

In the blockchain-type energy transaction brokerage module, after depositing an amount (either cash, cryptocurrency, or beneficiary) into the account number of the power supplier corresponding to the energy color coin selected by the power consumer application module, It is achieved by the step (S700) to notify the smart phone number.

As described above, in the present invention

First, it is possible to calculate the amount of renewable energy generated through the home and power generation complexes by using the energy color coin transformation robot engine according to the reference value of the energy color coin. Coins can be formed, thereby increasing the recognition rate that new renewable energy can be purchased with a small amount of money, thereby increasing the purchasing taste and interest of electric power consumers by more than 80%.

Second, the internal and external costs can be reduced to 70% because they do not go through external factors and intermediaries.

Third, through the blockchain-type energy transaction intermediary module, instead of the energy RMBC type verification module, the split type energy color coin module or power consumer application module is certified based on the certification list, and the approved energy color coin transaction is approved. The smart contract can be transferred to the split type energy colorcoin module, which can improve the authentication speed and verification speed of the blockchain by 2 to 4 times.

Fourth, through the certification of the blockchain-type energy transaction brokerage module and the validation of the energy RMBC-type verification module, the security and confidentiality of smart contracts related to distributed ledger and energy color coin transaction approval will be improved by 80%. Can be.

Fifth, select one of P2P, P2C, C2P on the blockchain network through the blockchain-type energy transaction brokerage module to act as an energy transaction brokerage centering on energy color coin targeting any application module for power users. As a result, the rate of electricity trade can be improved by more than 80% compared to the existing one, thereby activating the private trade-led electricity trading market.

1 is a block diagram showing the components of a hybrid blockchain-type energy transaction activation device 1 composed of a split-type energy colorcoin module and a blockchain-type energy transaction intermediary module according to the present invention;
2 is a block diagram showing the components of the hybrid blockchain-type energy transaction activation device 1 consisting of a split-type energy colorcoin module and a blockchain-type energy transaction intermediary module according to the present invention;
3 is a block diagram showing the components of the split-type energy color coin module according to the present invention;
4 is the energy color coin deformed robot engine according to the present invention, after sensing the amount of renewable energy generated in the home and power generation complexes, and calculated by splitting to calculate the energy color coin to the reference value of the automatic energy color coin by color In one embodiment, showing that to form
5 is a block diagram showing the components of the blockchain-type energy transaction brokerage module according to the present invention;
6 is a diagram illustrating a relationship between a block and a block header of a block generation unit according to the present invention;
FIG. 7 is a diagram illustrating a method of generating a hash value of a previous block by using a cryptographic hash function for sequential connection of blocks through a chaining unit according to the present invention, and writing the result to a new block connected later.
8 is a blockchain-type energy transaction intermediary according to the present invention, an embodiment showing that the blockchain of energy colorcoin has a special storage space (database), separately storing the energy colorcoin history not yet used ,
FIG. 9 is a diagram illustrating a result of a transaction by executing a BFT sequence algorithm twice in group units through a DBFT (Diversity of opinion Byzantine Fault Tolerance) type RMBC mechanism engine according to the present invention.
FIG. 10 illustrates an embodiment of a cell energy verification client in a blockchain network generating, verifying and distributing a block when a transaction is transmitted to a blockchain network through a job verification unit according to the present invention.
11 is a block diagram showing the components of the energy randomized mesh blockchain (RMBC) type verification module according to the present invention;
12 is a flowchart illustrating a method of activating a hybrid blockchain-type energy transaction consisting of a split-type energy colorcoin module and a blockchain-type energy transaction intermediary module according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram showing the components of a hybrid blockchain-type energy transaction activation device 1 composed of a split-type energy colorcoin module and a blockchain-type energy transaction intermediary module according to the present invention, and FIG. The present invention relates to a block diagram of a split type energy colorcoin module and a blockchain type energy trading intermediary module according to the present invention, which is a block diagram of a hybrid blockchain type energy trading activation device 1, which is a split type energy color coin. Module 100, block chain energy transaction brokerage module 200, the energy RMBC type verification module 300, the power consumer application module 400 is composed of.

First, the split type energy color coin module 100 according to the present invention will be described.

The split-type energy color coin module 100 senses the amount of renewable energy generated in homes and power generation complexes located in the micro grid, and splits it to meet the reference value of the energy color coin. It creates the energy distributed ledger of Kalcoin and delivers the smart contract on the approval of the energy colorcoin transaction to the blockchain-type energy transaction brokerage module.

As shown in FIG. 3, the energy color coin transformation robot engine 110, the distributed ledger generation unit 120 for energy color coin, and the smart contract transmission unit 130 are included.

First, the energy color coin transformation robot engine 110 according to the present invention will be described.

The energy color coin transformation robot engine 110 senses the amount of renewable energy generated in the home and power generation complexes, and then splits and calculates the energy color coin according to the reference value of the energy color coin to automatically form the energy color coin by color. Do it.

As shown in FIG. 4, when the amount of renewable energy generated in homes and power generation complexes is 1KW, an energy color coin for purple is formed, and when the amount of renewable energy generated in homes and power generation complexes is 5KW, indigo blue energy colors If a coin is formed and the renewable energy generated in the home and the power plant is 10KW, the blue energy color coin is formed. If the renewable energy generated in the home and the power plant is 50KW, the green energy color coin is formed. When the amount of renewable energy generated in the home and power generation complex is 100KW, the energy color coin for yellow is formed. When the amount of renewable energy generated in the home and power generation complex is 250KW, the energy color coin for orange is formed. If the renewable energy generated in the complex is 500KW, red color energy color coin is formed.

For example, if the amount of renewable energy generated in the home and the power generation complex is 18KW, this is one of the 10KW blue color energy color coin, the 5KW blue color energy color coin, and the 1KW purple color energy according to the standard value of the energy color coin. It forms an energy color coin split into three color coins.

In the energy color coin transformation robot engine according to the present invention, the reason for registering the renewable energy amount generated through the home and the power generation complex according to the reference value of the energy color coin is 1: according to the purpose and use of the power consumer. 1 By forming various kinds of customized energy color coins, it is possible to increase the purchasing taste and interest of electric power consumers, and above all, it is possible to revitalize the private trade-led electricity trading market because of its good return rate with money.

Second, the dispersion ledger generation unit 120 for energy color coin according to the present invention will be described.

The distributed color ledger generation unit 120 for energy colorcoin serves to generate an energy distributed ledger corresponding to the energy colorcoin for each new and renewable energy generated by the energy colorcoin transform robot engine.

It consists of energy distributed ledger which includes energy amount, electricity supplier name, smartphone number, electricity supplier ID, electricity supplier account number, desired price of energy transaction, all past transaction details and energy transaction approval.

Third, the smart contract transmitter 130 according to the present invention will be described.

The smart contract transmission unit 130 serves to deliver the smart contract related to the energy color coin transaction approval to the blockchain-type energy transaction intermediary module.

Next, a description will be given of the blockchain-type energy transaction brokerage module 200 according to the present invention.

The blockchain type energy transaction intermediary module 200 is a split type energy colorcoin module that has been authenticated between a split type energy color coin module and an energy RMBC type verification module and requests a smart contract for approval of an energy color coin transaction. After checking whether it is a color coin module or not, and if it is an authorized split-type energy color coin module, the smart contract regarding the approval of the energy color coin transaction requested by the energy color coin module is transferred to the energy RMBC type verification module, and the split type energy color coin The energy RMBC type verification module is used to control the smart contract related to the approval of the approved energy color coin transaction, and any one of P2P, P2C, and C2P is selected to apply the energy color to the application module for arbitrary power users. Acting brokerage of energy transactions centered on coins And to do.

As shown in FIG. 5, the energy distribution ledger manager 210, the block generator 220, the chaining unit 230, the block chain type energy transaction broker 240, and the authentication controller 250. It is composed.

First, the energy distribution ledger management unit 210 according to the present invention will be described.

The energy distribution ledger management unit 210 replaces the energy RMBC type verification module and replaces the energy distribution ledger that can be shared by all the cellular energy verification clients using the blockchain network, the split type energy color coin module, and the power consumer application module. It is responsible for storing and managing.

This means that the cellular energy verification client of the blockchain network checks the open transaction details, jointly verifies the validity of the transaction, and finally all cellular energy verification clients share the same ledger.

As such, the energy distribution ledger management unit has all the information (energy amount, power supplier (= generator) name, smart phone number, power supplier ID, power supplier account number, energy transaction desired price, Records all past transactions, approvals of energy transactions, and physically distributes copies to participating cell energy verification clients, resulting in a distributed database where all cell energy verification clients in the blockchain network share the same information. Is defined.

Each cell-type energy verification client downloads the blockchain-type energy transaction verification platform to the blockchain device (computer, smartphone) owned for blockchain-type energy transaction verification and executes it to connect to the blockchain network.

Through this process, the blockchain energy trading verification platform establishes a blockchain network among cell energy verification clients, and transparently open to all cell energy verification clients through the blockchain network and sharing of the finally verified ledger. It is possible to secure mutual trust technically.

 From the user's point of view, it is very easy to expand the blockchain network because the transaction preparation is completed by simply executing the blockchain-type energy transaction verification platform on the blockchain device (computer, smartphone) without any complicated procedures.

The blockchain-type energy transaction verification platform performs the task of synchronizing the energy distributed ledger by downloading the energy distributed ledger stored in the past transaction history to the blockchain devices (computers and smartphones).

For example, in the case of Energy Calcoin, one block having a size of 1 Mb to 100 Mb is generated in about 10 minutes.

Second, the block generation unit 220 according to the present invention will be described.

The block generation unit 220 is a basic unit of the block chain, the amount of energy made during a specific time, power provider (= generator) name, smart phone number, power supplier ID, power supplier account number, energy transaction desired price, all the past It plays a role of creating a database that stores energy color coin information on transaction details and energy transaction approvals in order.

Inside the block of Energy Color Coin, transactions for Energy Color Coin are stored in order, and about 1 minute and 10 new blocks are generated and propagated.

Each block is composed of magic number, block size, block header, transaction number, transaction history, electricity supplier information, energy transaction price, and energy transaction approval. Each component performs the following roles.

The magic number has a fixed value of '0xD9B4BEF9'.

The block size represents the total size of the block header, the number of transactions, the transaction details, the power supplier information, the energy transaction desired price, and the energy transaction approvals.

The block header is composed of a total of six pieces of information, such as the hash value of the previous block, mercurt of the transaction history, and plays a role of securing connections and integrity between blocks.

The transaction number represents the total number of transaction details included in the block.

The transaction details include transaction information that actually occurred.

The power provider information includes a power provider (= generator) name, a smart phone number, a power provider ID, and a power provider account number.

The desired price for energy trading is stored in the energy trading price desired by the power supplier.

The energy transaction approval details include smart contracts for the approved energy color coin transaction approved toward the energy RMBC type verification module.

The relationship between the block and the block header is shown in FIG. 6, and the core technology of the block chain is included in the block header.

The block header consists of six items: the version, the hash value of the previous block, the hash value of the entire transaction (mercroot), the timestamp, the difficulty of the problem, and the random number.

The version refers to the version of the Energy Color Coin program. Participants can select a program version arbitrarily, but since it is constantly being upgraded, the latest version of the program should be used to maintain compatibility.

The hash value of the previous block is responsible for the connection between the blocks and ensures the integrity of the blockchain.

The hash value of the entire transaction is the last value generated in the Merkle tree for the entire transaction included in the block (Merlute) to ensure the integrity of the transaction.

The timestamp represents the generation time of the block.

The problem difficulty confirms the participant's effort for block generation and maintains the generation interval of the block at about 10 minutes.

The random number is a correct answer to a problem to be solved in order to generate a block, and it is difficult to find an answer, but has a very easy feature of verifying whether or not the correct answer is provided.

Therefore, the participant receiving the generated block can quickly check whether the block is generated by making a proper effort by combining the hash value, the difficulty level, and the random number value.

Third, the chaining unit 230 according to the present invention will be described.

The chaining unit 230 is the amount of energy, power supplier (= generator) name, smart phone number, power supplier ID, power supplier account number, energy transaction desired price, all past transaction details, energy transaction approval history It forms the order of blocks by concatenating the generated blocks of energy color coin information in order of time.

As shown in FIG. 7 for sequential concatenation of blocks, a hash value of a previous block is generated by a cryptographic hash function and recorded in a new block connected later.

The hash value of the previous block is preferably generated by using the entire block as an input value. However, the block header of the previous block is generated as an input value in consideration of fast processing speed and efficiency of system resource utilization.

As described above, in order to forge and forge a transaction history of a specific block by the connection structure of the block, the block including the transaction history is forged and all the blocks created after it are also forged.

Fourth, the blockchain energy transaction broker 240 according to the present invention will be described.

The blockchain-type energy transaction intermediary 240 is an energy colorcoin wallet (Bitcoin Wallet) on a split-type energy colorcoin module and a power consumer application module on any blockchain network selected from P2P, P2C, C2P It installs, generates an address, and mediates energy colorcoin transactions between the split energy colorcoin module and the power consumer application module.

Here, Energy Colorcoin Wallet is a program for storing and trading Energy Colorcoin, and creates and manages public keys, private keys, and addresses that specify transactions in the blockchain network.

However, unlike accounts of financial institutions, wallets, addresses, etc. for energy colorcoin transactions can be directly created and managed by the trading parties.

In other words, the Energy Calcoin Wallet plays a role similar to that of a bank, and the Energy Calcoin address corresponds to the bank's account number.

The public key and private key generated from Energy Colorcoin wallet are used for digital signature and data encryption / decryption similar to the public certificate. The address uses the hash value of the public key or public key and represents the value transfer value in the transaction.

The blockchain of energy colorcoin has a special storage space (database) called Unspent Transaction Output (UTXO), and separately stores the energy colorcoin details not yet used as shown in FIG.

Energy Calcoin wallets can have multiple addresses, with one or more UTXOs logically linked to each address.

In Energy Calcoin, the transaction details and digital signatures generated from interpersonal transactions are verified and registered in the blockchain so that information including the value between authorized Energy Calcoin wallets is transferred.

Energy Calcoin trading is carried out through the following process.

First, it is checked whether the split type energy color coin module requesting the smart contract for approval of the trade of energy color coins is an authorized split type energy color coin module.

Subsequently, in the case of the certified split type energy color coin module, the smart contract regarding the approval of the trade of energy color coins requested by the split type energy color coin module is verified from the energy RMBC type verification module, and verified to the energy color coin module. Send smart contract about approval of transaction of energy color coin.

Subsequently, the splitting energy colorcoin module generates a hash value for the transaction approval in order to transmit the energy colorcoin, and then encrypts the generated hash value by using the private key of the splitting energy colorcoin module (electronic signature). Sends the full transaction and electronic signature to the blockchain energy transaction brokerage module.

Subsequently, the blockchain-type energy transaction brokerage module propagates the transaction approved energy color coins to the blockchain network.

Subsequently, the application module for the power consumer checks whether the address included in the transaction is his or her own, and then generates a hash value with the transaction history in the same manner as the blockchain energy transaction brokerage module, and converts the encrypted electronic signature value into the blockchain energy transaction. The decrypted key is compared with the hash value generated by the power consumer application module and the decrypted digital signature value.

At this time, if the generated hash value and the decoded hash value are the same, it can be confirmed that the transaction details are normal transaction information without forgery and forgery.

Transaction details and digital signature values in Energy Colorcoin are propagated equally to other power consumer application modules in the blockchain network, so transaction information such as how much is sent from which address can be confirmed.

However, since the address value does not give information about the owner of the address, the anonymity of the trading party is guaranteed.

That is, energy colorcoin can be issued by any split type energy colorcoin module without a separate issuer, and since the anonymous financial transaction occurs, the energy colorcoin used for the transaction is valid, and the energy colorcoin module power Transactions can be established only if the application module for the recipient has the energy color coin of the desired transaction amount.

Therefore, the value generated by including the hash value of the transaction from the issuance of energy colorcoin to the transaction occurring immediately before issuance to the energy colorcoin transaction details, and the power consumer application module searches the validity of the digital signature value and the UTXO that is held. Verify

In the blockchain-type energy trading brokerage, P2P system is defined as a system composed of equally qualified objects (peers) without a centralized system in a blockchain network environment.

P2P networking is structured in a structured P2P (P2P) manner in order to send and receive data in an directly connected structure between anonymized individuals.

Structured P2P based on DHT-Based includes all the services of P2P, can be removed without loss, there is no central entity, and the peer-to-peer connection on the overlay is fixed.

Fifth, the authentication control unit 250 according to the present invention will be described.

Instead of the energy RMBC type verification module, the authentication control unit 250 authenticates whether the split type energy color coin module on the block chain network is a split type energy color coin module registered in the authentication list or on the block chain network. It controls to authenticate whether the power consumer application module is a power consumer application module registered in the authentication list.

Next, the energy RMBC type verification module 300 according to the present invention will be described.

The energy randomized mesh blockchain (RMBC) type verification module 300 has a mesh structure of a plurality of cell type energy verification clients, and is based on each energy distribution ledger included in a plurality of verification machines, and mediates blockchain energy transactions. The smart contracts for the Energy Color Coin transaction approval, sent from the module, are created correctly, and are used to verify that there are no errors and changes.

As shown in FIG. 11, this includes a Diversity of opinion Byzantine Fault Tolerance (DBFT) type RMBC mechanism engine unit 310 and a job verification unit 320.

First, the Diversity of opinion Byzantine Fault Tolerance (DBFT) type RMBC mechanism engine 310 according to the present invention will be described.

The DBFT (Diversity of opinion Byzantine Fault Tolerance) type RMBC mechanism engine unit 310 forms a group of similar fields and departments and makes a first agreement in a group in which a request for a transaction occurs, and then randomly selects one person per external group. Thus, it serves to form a randomized mesh blockchain structure that undergoes a second consensus process.

As shown in FIG. 9, the BFT algorithm is executed twice in group units to represent a transaction result.

The first consensus process uses a PBFT to perform the consensus algorithm in the group that received the transaction request.

It is composed of a small group, so that the majority of them remain collaborative and deteriorate.

A second consensus process is undertaken.

In the second consensus process, a random number of validators are selected from several groups, and the consensus process is again selected among the selected people.

At this time, if the first agreement process and the second agreement process coincide with each other, the transaction contents are executed, and if they do not match, the transaction is rejected.

Therefore, when the users in the same group agree with the users randomly selected from other groups, they can be judged from the perspective of the third party more objectively, and the probability of malicious collusion is higher. Can be expected to shrink.

This consensus process allows the second group to filter out malicious results, even if the first group produces malicious results.

Thus, the probability of malicious collusion in a group can be reduced.

In other words, after forming a group between similar fields and departments and making a first agreement in a group where a request for a transaction occurred, randomly elected one person from each outside group to form a mesh to go through a second agreement process. To form a structure.

This reduces the likelihood of malicious collusion and results in a secure agreement to complete the transaction.

For example, the split-type energy colorcoin module creates a smart contract for approval of energy colorcoin transaction and delivers it to the blockchain-type energy transaction brokerage module.In the blockchain-type energy transaction intermediary module, a smart contract for approval of energy colorcoin transaction is provided. To the energy RMBC type verification module.

Subsequently, the energy RMBC type verification module receives the smart contract verification request for the approval of the energy color coin, generates a block, and delivers it to the cellular energy verification clients.

The smart contract on the approval of the transaction of energy color coin thus delivered is proved through the first PBFT agreement, and then the second agreement is made based on the result.

After two consensus processes, the correct transaction is proved and delivered to the blockchain energy transaction brokerage module.

The blockchain-type energy transaction brokerage module will check whether the received smart contract has been agreed.

In addition, it is determined whether the split-type energy color coin module operated based on this is in an authenticated state.

Once verified through this process, the energy color coin transaction approval details are added to the block, and the completed energy color coin transaction approval details are transmitted to update the energy ledger.

For this reason, through the DBFT (Diversity of opinion Byzantine Fault Tolerance) type RMBC mechanism engine according to the present invention, to ensure the accuracy and safety of transactions using a smart contract in a private environment to ensure the secure integrity of the blockchain, By proposing a DBFT algorithm, the probability of malicious fixing can be reduced.

Second, the job verification unit 320 according to the present invention will be described.

The task verification unit 320 serves to verify according to the agreement and agreement between the hash cache and the cell-type energy verification clients, or between the hash cache and the power consumer application module.

Here, the hash cache consists of a way to prove that the participant has spent time and resources trying to create a block.

In Energy Calcoin, the problem pool takes time and work, and the new block created by the cell-type energy verification client that solved the problem first is connected to the blockchain so that certain rewards are returned. Cellular energy verification client is configured to contribute to the reliability of the entire blockchain.

The task verification unit according to the present invention is a method of proving efforts to solve the problem of the cell-type energy verification client. The hash value of the input value is easy to extract but the input value of the generated hash value is difficult to find. Take advantage.

Hash (X) → Y: Simple calculation with hash function

Find X value for Y: assign one random value

Therefore, finding the answer to the hash cache problem takes a lot of system resources and time, but the cellular energy verification client receiving the newly generated block can verify the integrity of the block header quickly by verifying the hash value.

Consensus and agreement of the cell-type energy verification client is a method of securing transaction reliability by obtaining a plurality of agreements from an untrusted blockchain network.

Like Energy Color Coin, in order to process Energy Color Coin transactions with the power consumer application module in the blockchain network, a method for technically guaranteeing the reliability is essential, and participants to secure the reliability of Energy Color Coin transactions. It consists of a long block preference structure in which at least a majority of the two agree to be considered valid transactions.

On the blockchain network, many participants generate blocks, and most of the generated blocks are adopted. However, when blocks are simultaneously generated and propagated, the blockchain branches to generate branches.

The validity of the branched branch is not determined immediately, but is determined by what new blocks are created later, as the previous block.

As such, there is no separate institution for trading because the blockchain of Energy Calcoin secures technical trust by fully confirming the intentions of all cellular energy verification clients.

When the transaction details are transmitted to the blockchain network, as shown in FIG. 10, the cellular energy verification clients in the blockchain network generate, verify, and distribute the blocks.

Verification by agreement and agreement with hash cache makes it very difficult to forge or forge the blockchain by hacking or other means.

In order to forge and alter the blockchain, it is necessary to create a new branch of the block and solve the hash cache problem very quickly. Therefore, it is configured to occupy more than 51% of the total system performance participating in the blockchain network.

Next, the power consumer application module 400 according to the present invention will be described.

The power consumer application module 400 is connected to the blockchain-type energy transaction brokerage module and the energy RMBC-type verification module, respectively, and participates in the blockchain network, and purchases and acquires energy color coins for the desired transaction amount. do.

For example, when a blackout occurs, an application module for a power consumer who wants to request energy urgently transmits an ID and a required energy amount to the blockchain energy transaction brokerage module for quick identification.

At this time, you prove your identity through the private key signature.

The received blockchain-type energy transaction brokerage module transmits after signing with the private key.

The split-type energy colorcoin module receiving the request for each energy colorcoin verifies the signature using the public key of the blockchain-type energy transaction brokerage module and verifies the energy colorcoin corresponding to the requested amount of energy.

Thereafter, the splitable energy colorcoin module with energy colorcoin can be supplied to the power consumer application module in a possible amount in a message.

At this time, the message is encrypted with the public key of the power consumer application module and authenticates the identity through the private key signature of the split energy colorcoin module.

This message is also sent directly to the power consumer application module, not through the blockchain-type energy transaction brokerage module.

Subsequently, the power consumer application module confirming the contents of the message checks the amount of energy that can be supplied, and selects an energy color coin to be supplied with energy after payment of the amount.

At this time, the blockchain-type energy transaction brokerage module deposits an amount (either cash, cryptocurrency, or beneficiary certificate) into the account number of the power provider corresponding to the selected energy color coin, and then notifies to the smartphone number of the power provider. Let's do it.

Hereinafter, a detailed operation process of a hybrid blockchain-type energy transaction activation method consisting of a split-type energy colorcoin module and a blockchain-type energy transaction intermediation module according to the present invention will be described.

12 is a flowchart illustrating a method of activating a hybrid blockchain-type energy transaction consisting of a split-type energy colorcoin module and a blockchain-type energy transaction intermediary module according to the present invention.

First, the split energy colorcoin module senses the amount of renewable energy generated in homes and power generation complexes located in the micro grid, and splits it to meet the standard value of the energy color coin. To generate an energy dispersion ledger of colorcoin (S100).

Next, in the split type energy color coin module, the smart contract regarding the approval of the energy color coin transaction is transferred to the block chain type energy transaction intermediation module (S200).

Next, after checking whether or not the split-type energy colorcoin module requesting the smart contract for approval of the energy color coin transaction through the blockchain-type energy transaction brokerage module is the certified split-type energy color coin module, and then the certified split-type energy If the color coin module, the smart contract for the energy color coin transaction approval requested by the energy color coin module is transferred to the energy RMBC type verification module (S300).

Next, in the energy RMBC type verification module, a plurality of cell type energy verification clients have a mesh structure and are transmitted from a blockchain type energy transaction brokerage module based on each energy distribution ledger included in the plurality of verification machines. The smart contract for the colorcoin transaction approval is correctly created and verifies that there are no errors and changes (S400).

Next, the smart contract for the approved energy color coin transaction approval through the energy RMBC type verification module is transmitted to the split type energy color coin module through the block chain type energy transaction intermediation module (S500).

Next, through the blockchain-type energy trading brokerage module, by selecting any one of P2P, P2C, C2P to proxy the energy trading brokerage centering on energy color coin targeting any application module for power consumers (S600) .

Here, the energy color coin refers to the energy color coin of the split type energy color coin module, which has been verified through the energy RMBC type verification module, presenting a smart contract for approval of the energy color coin transaction.

The application module for the power consumer participates on the blockchain network and buys and acquires an energy color coin as much as a desired transaction amount.

Finally, in the blockchain-type energy transaction brokerage module, after depositing an amount (select one among cash, cryptocurrency and beneficiary certificates) into the account number of the power supplier corresponding to the energy color coin selected by the power consumer application module, Notify the smart phone number of the power supplier (S700).

1: Hybrid blockchain type energy trading activation device
100: Split Type Energy Color Coin Module
200: blockchain energy trading brokerage module
300: energy RMBC type verification module
400: Application module for power consumers

Claims (7)

Sensing the amount of renewable energy generated in homes and power generation complexes located in the micro grid, and splitting it to the standard value of energy color coin, and then creating 1: 1 customized energy color coin and energy dispersion ledger of energy color coin. Split-type energy color coin module 100 for transmitting the smart contract related to the color coin transaction approval to the blockchain-type energy transaction intermediary module,
Between the splitting energy colorcoin module and the energy RMBC type verification module, after checking whether the splitting energy colorcoin module requesting a smart contract for approval of the energy colorcoin transaction is a certified splitting energy colorcoin module, In the case of a split type energy color coin module, the smart contract for approval of the trade of energy color coins requested by the energy color coin module is transferred to the energy RMBC type verification module, and the energy verified through the energy RMBC type verification module toward the split type energy color coin module. Block to control the smart contract related to the approval of colorcoin transaction, and select one of P2P, P2C, and C2P to act as an energy transaction brokerage centering on energy colorcoin targeting any application module for power users Chain-type energy trading brokerage module 200,
A smart contract for approval of energy colorcoin transactions, which is composed of a multi-cell energy verification client in a mesh structure and transmitted from a blockchain-type energy transaction brokerage module, based on each energy distribution ledger included in a plurality of verification machines. An energy RMBC type verification module 300 that correctly writes and verifies that there are no errors and changes, and
It is connected to the blockchain-type energy transaction brokerage module and the energy RMBC-type verification module, respectively, participate in the blockchain network, and consists of a power consumer application module 400 for buying and obtaining energy colorcoin as much as the desired transaction amount. A hybrid blockchain-type energy transaction activation device comprising a split-type energy colorcoin module and a blockchain-type energy transaction brokerage module.
According to claim 1, wherein the split type energy color coin module 100
After sensing the amount of renewable energy generated in the home and power generation complex, the energy color coin deformed robot engine unit 110 to split the calculation according to the reference value of the energy color coin to automatically form the energy color coin by color, and
A distributed ledger generation unit 120 for energy colorcoins for generating energy distributed ledgers corresponding to energy colorcoins for each new renewable energy amount generated by the energy colorcoin deformed robot engine unit;
Split-type energy colorcoin module, blockchain-type energy transaction brokerage module, characterized in that consisting of a smart contract transmission unit 130 for transmitting the smart contract related to the energy color coin transaction approval to the blockchain-type energy transaction brokerage module Hybrid blockchain energy trading activation device.
The method of claim 2, wherein the energy color coin deformed robot engine 110
If the renewable energy generated in the home and power generation complex is 1KW, the energy color coin for purple is formed. When the renewable energy generated in the home and power generation complex is 5KW, the energy color coin for indigo blue is formed. If the amount of renewable energy generated in the 10KW, blue energy color coin is formed in the home, and if the renewable energy generated in the home and power generation complex is 50KW, the green energy color coin is formed, the new energy generated in the home and power generation complex If the renewable energy amount is 100KW, yellow energy color coin is formed, and if the renewable energy generated at home and power generation complex is 250KW, it is orange energy color coin, and the renewable energy generated at home and power plant is 500KW. Split type energy color coin module block body which forms red color energy color coin on the back side Hybrid blockchain-type energy transaction activation device consisting of a doll energy transaction brokerage module.
The method of claim 1, wherein the block chain energy trading brokerage module 200
In place of the energy RMBC type verification module, an energy distribution ledger management unit that stores and manages an energy distribution ledger that can be shared by all cell energy verification clients, splitting energy colorcoin modules, and application modules for power consumers using the blockchain network ( 210),
As the basic unit of blockchain, the amount of energy made during a certain time, the power provider (= generator) name, smartphone number, power provider ID, power provider account number, energy transaction price, past transaction details, energy transaction approval history A block generation unit 220 for generating a database storing energy color coin information related thereto in order;
Block created by gathering energy color coin information about energy amount, power provider (= generator) name, smartphone number, power supply ID, power supply account number, desired price of energy transaction, all past transaction details, and energy transaction approval Chaining unit 230 to form a sequence of blocks by connecting the chronological order,
On the blockchain network selected from P2P, P2C, or C2P, the energy colorcoin wallet is installed on the split energy colorcoin module and the power consumer application module, and the address is generated to generate the split energy color. A blockchain-type energy transaction broker 240 for brokering energy colorcoin transactions between the coin module and the power consumer application module;
In place of the energy RMBC type verification module, it certifies whether the split type energy color coin module on the block chain network is a split type energy color coin module registered in the certification list, or the application module for power consumers on the block chain network is authenticated. Hybrid blockchain type consisting of split type energy colorcoin module, block chain type energy transaction intermediary module, characterized in that the authentication control unit 250 to control whether to authenticate whether the application module for power consumers registered in the list Energy trading activation device.
The method of claim 4, wherein the Energy Color Coin Wallet (Bitcoin Wallet)
Split-type energy colorcoin module and blockchain, a program for storing and trading energy colorcoins, which generates and manages public keys, private keys, and addresses that specify transaction targets within the blockchain network. Hybrid blockchain-type energy trading activation device composed of a type energy trading brokerage module.
According to claim 1, wherein the energy RMBC type verification module 300
DBFT that forms a group of similar fields and departments and makes a first agreement in the group where the request for transactions occurred, and then randomly elects one person from each outside group to form a randomized mesh blockchain structure that goes through the second agreement process. (Diversity of opinion Byzantine Fault Tolerance) type RMBC mechanism engine unit 310,
Split-type energy color coin module, block chain type comprising a task verification unit 320 for verifying according to the agreement and agreement between the hash cache and the cell-type energy verification clients, or between the hash cache and the power consumer application module Hybrid blockchain-type energy transaction activation device consisting of an energy transaction brokerage module.
The split energy colorcoin module senses the amount of renewable energy generated in homes and power generation complexes located in the micro grid, splits it to the standard value of the energy color coin, and then uses 1: 1 customized energy color coin and energy color coin. Generating an energy distribution ledger of (S100),
In the split-type energy color coin module, delivering a smart contract regarding the approval of the energy color coin transaction to the block chain energy transaction intermediary module (S200),
After checking whether or not the split type energy color coin module is a split type energy color coin module that has requested a smart contract for approval of the energy color coin transaction through the block chain type energy trading brokerage module, then the certified split type energy color coin module In step S300, the smart contract regarding the energy color coin transaction approval requested by the energy color coin module is transferred to the energy RMBC type verification module (S300);
In the energy RMBC type verification module, a plurality of cell type energy verification clients have a mesh structure and are transferred from a blockchain type energy transaction brokerage module based on each energy distribution ledger included in the plurality of verification machines. Verifying that the smart contract is correctly created for the approval, there are no errors and changes (S400),
Transmitting a smart contract regarding the approved energy color coin transaction approval through the energy RMBC type verification module to the split type energy color coin module through the block chain type energy transaction intermediary module (S500);
Through the blockchain-type energy transaction brokerage module, selecting any one of P2P, P2C, C2P to act as an energy transaction brokerage centering on energy color coin targeting any power consumer application module (S600),
In the blockchain-type energy transaction brokerage module, after depositing an amount (either cash, cryptocurrency, or beneficiary) into the account number of the power supplier corresponding to the energy color coin selected by the power consumer application module, Hybrid-type blockchain-type energy transaction activation method consisting of a split-type energy colorcoin module, blockchain-type energy transaction brokerage module, characterized in that the step of notifying to the smart phone number (S700).

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