KR102222356B1 - Power Sharing Relay DC Switch for P2P presuming service of domestic electricity surplus and blockchain based presuming service platform - Google Patents

Abstract

A DC power relay switch system and a blockchain-based P2P prosuming service platform for a P2P direct transaction service for residential surplus power are presented. The DC power relay switching method proposed in the present invention includes the steps of connecting a DC sender and a DC receiver using a PSS (Power Sharing Switch) method, transmitting DC power from the DC sender to the DC receiver, and between the DC sender and the DC receiver. And terminating the connection. In another aspect, the blockchain-based P2P power transaction brokerage service method proposed in the present invention includes the steps of building a blockchain technology-based mainnet and a transaction platform, distributing and encrypting the surplus power transaction information, and storing it. Building a P2P power transaction information sharing system between users using the net and transaction platform and stored surplus power transaction information, and blockchain-based P2P processing between users using P2P power transaction information shared through the P2P power transaction information sharing system. And performing.

Description

Power Sharing Relay DC Switch for P2P presuming service of domestic electricity surplus and blockchain based presuming service platform for residential surplus power P2P direct transaction service

The present invention relates to a DC power relay switch system and a blockchain-based P2P prosuming service platform for a P2P direct transaction service for residential surplus power.

With the development of the energy industry and national institutional changes, the introduction of new and renewable energy increases and the energy system is decentralized. As a result, independent small-scale distributed resources that combine renewable energy generation sources and energy storage devices are gradually increasing.

Until now, there was only a method for small-scale distributed resources to use the power produced by the power generation source on their own and sell the remaining part to the national power grid network, but this method is also complicated in the procedure and it is difficult for small-scale producers to proceed, so the surplus power is lost. There are many cases.

In addition, there are many parts that are difficult for small-scale producers to deal with in the settlement of power generation, and the power bill must be settled every month or for a certain period by the power company, so the power sales method based on the national power grid network is not active.

In this situation, as the spread of energy storage systems becomes active and the composition of microgrids corresponding to small power communities becomes active, interest in services that buy and sell power in these microgrid units is increasing. Also, interest is increasing.

In particular, as the revised bill of the Electricity Business Act, which allows electricity transactions between neighbors and small-scale electricity brokerage business, has been passed, electricity can be efficiently traded between distributed resources including microgrids and individual stored electricity for the implementation of the revised system. The need for systems is increasing. Since electricity transaction between small-scale distributed resources is not simply selling electricity to a power company, communication between all resources is required, and judgment of various transaction conditions and circumstances is required.Therefore, IOT and distributed network technology, blockchain technology and More in-depth research is needed on the combined efficient P2P power transaction technology and improved business model.

In addition to the social interest in such electricity transactions, research to combine blockchain, a technology that has recently attracted attention, is actively being conducted.

Blockchain is a core concept of decentralization that aims for P2P transactions, away from the existing financial system that secures and manages all transactions in financial institutions. It is a communication network that connects personal computers without a P2P server or client. When each connected computer acts as a server and a client, information is shared.

Blockchain based on this P2P network is based on encryption, shared ledger, and distributed consensus technology. Encryption uses a hash tree to verify the integrity of data and electronic signatures to prevent non-repudiation of transactions. As a record storage of synchronized information shared by participants, it is made in blocks and stored so that it cannot be changed.Distributed consensus blocks only appropriate transactions or information through agreement between participating nodes for information or transaction information generated by each node of the network. It is to keep it in a chain.

In addition, the technology to guarantee the reliability and integrity of transactions using smart contract technology that automatically executes according to the contract terms between traders is also gaining spotlight as a related technology.

In order to enable direct transaction of surplus power between houses, a power transmission/reception device for power sharing and transaction is required. Transmission and reception branch power networks can be configured through the development of a power switch capable of DC power transaction for branch-to-point sharing and connection of electricity. Using such a network, it is possible to acquire transaction and branch-related data information such as transmission and reception power.

Therefore, there are attempts to utilize blockchain technology and smart contract technology for P2P power transaction, but studies on the independent compatibility of ICT convergence technology or transaction model for improving transaction reliability are insufficient. In addition, there is a need for a technology for a relay control communication protocol technology of a cloud server and a composite device in the home, and a technology for connecting the power network between the surplus power transaction point. It is necessary to develop a power network connection switching technology based on stability for each capacity between seller and purchaser, and application of relay control communication protocol technology of cloud server and complex devices in the home is required.

The technical problem to be achieved by the present invention is to provide an ICT convergence technology for improving the reliability of transactions, a power relay switch system for independent compatibility of transaction models, and a blockchain-based P2P prosuming service platform. In addition, it proposes a technology for the relay control communication protocol technology of a cloud server and a complex device in the home, and a technology for the power network connection between redundant power trading points, and a stability-based power network connection switching technology for each capacity between a seller and a purchaser, and a cloud server. And we propose a relay control communication protocol technology for complex devices in the home.

In one aspect, the DC power relay switching method proposed in the present invention includes the steps of connecting a DC transmitter and a DC receiver using a PSS (Power Sharing Switch) method, transmitting DC power from the DC transmitter to the DC receiver, and DC And terminating the connection between the sender and the DC receiver.

The proposed DC power relay switching method measures the transmission amount, reception amount, loss amount, and cost of the DC sender and DC receiver in each step, blocks it with a block chain, and stores it so that forgery cannot be altered.

The proposed PSS method uses circuit-switching switching to divide a plurality of power-switching lines into space, establish a line whenever DC exchange between DC sender and DC receiver is needed, and transmit DC power to trade power between DC sender and DC receiver. To do.

The proposed PSS scheme minimizes the number of crosspoints to 2 to 4 using the concept of a 2 step switching architecture.

In another aspect, the blockchain-based P2P power transaction brokerage service method proposed in the present invention includes the steps of building a blockchain technology-based mainnet and a transaction platform, distributing and encrypting the surplus power transaction information, and storing it. Blockchain-based DC P2P between users using the P2P power transaction information sharing system between users and P2P power transaction information shared through the P2P power transaction information sharing system using the net and transaction platform and the stored surplus power transaction information. It includes performing prosuming (direct transaction of DC power between individuals-hereinafter P2P prosuming).

The step of performing blockchain-based P2P processing between users using the P2P power transaction information shared through the P2P power transaction information sharing system is to monitor the user's power generation, consumption, and storage, and monitor the amount of power demand and supply. It includes the steps of analyzing the monitoring and demand forecasting.

The step of performing blockchain-based P2P processing between users using the P2P power transaction information shared through the P2P power transaction information sharing system includes monitoring the power transaction between users and paying and settling the compensation amount. .

In yet another aspect, the blockchain-based P2P power transaction intermediary service system proposed in the present invention is an information sharing unit that shares information for building a P2P power transaction information sharing system between users, and a P2P power transaction information sharing system. It includes a service provider that performs blockchain-based P2P processing between users and a DC power relay that relays DC power between a DC sender and a DC receiver using a PSS (Power Sharing Switch) method.

The information sharing unit establishes a blockchain technology-based mainnet and transaction platform, distributes and encrypts and stores surplus power transaction information, and uses the mainnet and transaction platform and stored surplus power transaction information to share P2P power transaction information between users. To build.

The service provider monitors the user's power generation, consumption and storage, monitors the demand and supply of power, and analyzes the demand forecast, monitors the power transaction between users, and performs payment and settlement of the compensation amount. .

The DC power relay measures the transmission amount, reception amount, loss amount, and cost of the DC sender and DC receiver at each step, converts it into a block chain and stores it so that forgery and alteration is impossible. Communication line is divided into time division and a line is set up for each communication between DC sender and DC receiver through multiplex exchange, and power transaction between DC sender and DC receiver is carried out by transmitting DC, and two crosspoints are used using a two-step PSS method. Minimize to four.

According to embodiments of the present invention, it is possible to provide an ICT convergence technology for improving the reliability of a transaction, a power relay switch system for independent compatibility of a transaction model, and a blockchain-based P2P prosuming service platform. In addition, it proposes a technology for the relay control communication protocol technology of a cloud server and a complex device in the home, and a technology for the power network connection between redundant power trading points, and a stability-based power network connection switching technology for each capacity between a seller and a purchaser, and a cloud server. It is possible to propose a relay control communication protocol technology for a composite device in a home and a home.

1 is a flowchart illustrating a DC power relay switching method according to an embodiment of the present invention.
2 is a diagram illustrating a DC power relay switching process according to an embodiment of the present invention.
3 is a diagram for explaining a circuit switching method according to the prior art.
4 is a diagram for explaining the concept of a two-stage switch structure of a PSS according to an embodiment of the present invention.
5 is a block diagram using a PSS according to an embodiment of the present invention.
6 is a conceptual diagram illustrating a process of trading and sharing surplus power for a house according to an embodiment of the present invention.
7 is a flowchart illustrating a block chain-based P2P power transaction brokerage service method according to an embodiment of the present invention.
8 is a conceptual diagram of a blockchain-based P2P power transaction brokerage service model according to an embodiment of the present invention.
9 is a view for explaining the configuration of a block chain-based P2P power transaction brokerage service system according to an embodiment of the present invention.

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

1 is a flowchart illustrating a DC power relay switching method according to an embodiment of the present invention.

The proposed DC power relay switching method includes a step of connecting a DC sender and a DC receiver using a PSS (Power Sharing Switch) method (110), a step of transmitting DC power from a DC sender to a DC receiver (120), and Including the step 130 of terminating the connection between the DC receivers.

In step 110, a DC sender and a DC receiver are connected using a PSS (Power Sharing Switch) scheme.

The PSS scheme according to an embodiment of the present invention uses a circuit switching switching scheme to time-division a plurality of speed data communication lines. Whenever communication between DC sender and DC receiver by multiplex exchange, a line is set up, and DC is transmitted to perform power transaction between DC sender and DC receiver. More specifically, a circuit-switching switching method is applied to perform power transactions between individuals using a switch, and direct current is transmitted, and the DC current causes power loss according to the transmission medium and distance. Included. The PSS scheme according to an embodiment of the present invention uses a two-step PSS scheme to minimize crosspoints to two to four.

In step 120, DC power is transmitted from the DC sender to the DC receiver.

In step 130, the connection between the DC sender and the DC receiver is terminated.

In each step, the transmission amount, reception amount, loss amount, and cost of the DC sender and DC receiver are measured and stored in a block chain to prevent forgery and alteration. The DC power relay switching process will be described in more detail with reference to FIG. 2.

2 is a diagram illustrating a DC power relay switching process according to an embodiment of the present invention.

As described above, the proposed DC power relay switching process includes an access step 210, a transmission step 220, and a termination step 230.

According to an embodiment of the present invention, in the connection step 210, the DC producer (ie, DC sender) 241 sends a connection request 211 message to the DC consumer (ie, DC receiver) 242. Thereafter, the DC consumer 242 transmits a reception readiness confirmation 212 message to the DC producer 241, and the DC producer 241 sends a transmission readiness confirmation 213 message to the DC consumer 242 in response thereto.

In the transmission step 220, the DC producer 241 performs DC power transmission 221 to the DC consumer 242.

In the termination step 230, the DC producer 241 transmits a connection termination request 231 message to the DC consumer 242, and then the DC consumer 242 sends a reception completion confirmation 232 message to the DC producer 241. send. The DC producer 241 transmits a connection termination confirmation 233 message to the DC consumer 242 in response thereto.

This process is performed using the PSS method, and the PSS method according to the embodiment of the present invention uses a circuit-switching switching method to time-division data communication lines of a plurality of speeds. Whenever communication between DC sender and DC receiver by multiplex exchange, a line is set up, and DC is transmitted to perform power transaction between DC sender and DC receiver. More specifically, a circuit-switching switching method is applied to perform power transactions between individuals using a switch, and direct current is transmitted, and the DC current causes power loss according to the transmission medium and distance. Included. The PSS scheme according to an embodiment of the present invention uses a two-step PSS scheme to minimize crosspoints to two to four.

3 is a diagram for explaining a circuit switching method according to the prior art.

In the circuit switching method according to the prior art of FIG. 3(a), when the number of connected users increases, the number of crosspoints increases, making it difficult to configure a switch. The circuit switching scheme performs power transmission by switching 310 from a crosspoint to a corresponding control station according to power transmission.

For example, if there are 10 DC transmitting households and 10 DC receiving households, a total of 10 × 10 = 100 crosspoints will be obtained. As the number of crosspoints increases in this way, it becomes more difficult to configure the switch.

4 is a diagram for explaining the concept of a two-stage switch structure of a PSS according to an embodiment of the present invention.

4(a) is a diagram showing a crosspoint using a one-step PSS method. If there are 10 DC sending households and 10 DC receiving households, you have a total of 10×10 = 100 crosspoints. There is a disadvantage in that the size of the switch becomes too large due to such too many crosspoints.

FIG. 4(b) is a diagram for explaining a two-step PSS scheme having four crosspoints according to an embodiment of the present invention, and FIG. 4(a) is It is a diagram for explaining the step PSS method. As shown, even when there are 10 DC transmitting households and 10 DC receiving households, it can be confirmed that only 2 to 4 crosspoints are provided.

5 is a block diagram using a PSS according to an embodiment of the present invention.

The two grids 510 and 520 refer to the power grid of KEPCO, and subscribers of each household (that is, DC sender and DC receiver) participating in power processing are PSS described above through the power control system PCS (Power Control System). It is possible to provide a power relay switch system and a blockchain-based P2P prosuming service platform for independent compatibility of ICT convergence technology or transaction model for using the method 530. In addition, it uses the relay control communication protocol technology of the cloud server and the complex device in the home, and the technology related to the power network connection between the redundant power transaction point, and uses the stability-based power network connection switching technology for each capacity between the seller and the purchaser, and the cloud server And it is possible to use the relay control communication protocol technology of the complex device in the home.

6 is a conceptual diagram illustrating a process of trading and sharing surplus power for a house according to an embodiment of the present invention.

The proposed process of trading and sharing surplus power for housing may include the Site 4 method. First, the existing indirect transaction method may include a transaction 620 between an individual and KEPCO, a transaction 630 between an individual and the network, and a transaction 640 between the network and KEPCO. As a method of trading surplus power proposed in the present invention, there is a direct DC transaction 610 between an individual and an individual. Using this method, it is possible to perform power transmission between a supplier whose energy production amount is greater than the energy consumption amount and a supplier whose energy production amount is less than the energy consumption amount and thus a consumer who needs power supply. Therefore, it is necessary to develop a blockchain-based P2P service platform for direct transaction of surplus power to perform power transmission.

7 is a flowchart illustrating a block chain-based P2P power transaction brokerage service method according to an embodiment of the present invention.

The proposed blockchain-based P2P power transaction brokerage service method includes the steps of establishing a blockchain technology-based mainnet and trading platform (710), distributing and encrypting and storing surplus power transaction information (720), and the mainnet and trading platform. Building a P2P power transaction information sharing system between users using the stored surplus power transaction information (730) and using the P2P power transaction information shared through the P2P power transaction information sharing system, blockchain-based P2P processing between users is performed. And performing step 740.

In step 710, a mainnet and a transaction platform based on blockchain technology are established, and in step 720, the surplus power transaction information is distributed, encrypted, and stored. In step 730, a P2P power transaction information sharing system between users is established using the mainnet and the transaction platform and the stored surplus power transaction information.

According to an embodiment of the present invention, a PSS method may be used as a method of constructing an infrastructure for building a P2P power transaction information sharing system between users. The PSS method uses a circuit-switching switching method to time-division data communication lines of multiple speeds. Whenever communication between DC sender and DC receiver by multiplex exchange, a line is set up, and DC is transmitted to perform power transaction between DC sender and DC receiver. More specifically, a circuit-switching switching method is applied to perform power transactions between individuals using a switch, and direct current is transmitted, and the DC current causes power loss according to the transmission medium and distance. Included.

In this way, the blockchain-based power transaction information is shared through the blockchain-based P2P energy transaction service system, and in step 740, the block between users is used using the P2P power transaction information shared through the blockchain-based power transaction information sharing system. It performs chain-based P2P prosuming.

Step 740 is to monitor the user's power generation, consumption and storage, monitor the demand and supply of power, and analyze the demand forecast, monitor the power transaction between users, and pay and settle the compensation amount. And performing.

8 is a conceptual diagram of a blockchain-based P2P power transaction brokerage service model according to an embodiment of the present invention.

Referring to the conceptual diagram of the blockchain-based P2P power transaction brokerage service model in FIG. 8, first, a blockchain technology-based mainnet and a transaction platform in order to build a blockchain technology-based transaction platform 810 to provide a P2P power transaction brokerage service. Can build. In addition, the surplus power transaction information can be distributed, encrypted, and stored. A P2P power transaction information sharing system between users can be established by using the mainnet and trading platform and the stored surplus power transaction information.

According to an embodiment of the present invention, a PSS method may be used as a method of constructing the infrastructure 830 for building a P2P power transaction information sharing system between users. The PSS method uses a circuit-switching switching method and a space division method for the power exchange switch. Whenever the DC transmitter and the DC receiver communicate, a line is established, and DC is transmitted to perform power transaction between the DC transmitter and the DC receiver. In more detail, by applying the circuit-switching switching method, power transactions are performed between individuals using a switch, and DC is transmitted, and DC current causes power loss depending on the transmission medium and distance, so it is recorded and settled in each transmission/reception step. The mechanism to do is included.

Thereafter, a service 820 for performing blockchain-based P2P processing between users may be provided by using P2P power transaction information shared through the blockchain-based power transaction information sharing system.

In this way, blockchain-based power transaction information is shared through the blockchain-based P2P energy transaction service system, and blockchain-based P2P processing is performed between users using the P2P power transaction information shared through the P2P power transaction information sharing system.

At this time, it is possible to monitor the user's power generation, consumption, and storage, and to monitor and predict the demand and supply of power. In addition, it is possible to monitor power transactions between users and perform payment and settlement of compensation amounts.

9 is a view for explaining the configuration of a block chain-based P2P power transaction brokerage service system according to an embodiment of the present invention.

Blockchain-based P2P power transaction brokerage service system 900 according to the present embodiment includes a processor 910, a bus 920, a network interface 930, a memory 940, a database 950, and a DC power relay unit 960. ) Can be included. The memory 940 may include an operating system 941 and a blockchain-based P2P prosuming routine 942. The processor 910 may include an information sharing unit 911. In other embodiments, the blockchain-based P2P power transaction brokerage service system 900 may include more components than those of FIG. 9. However, there is no need to clearly show most of the prior art components. For example, the blockchain-based P2P power transaction brokerage service system 900 may include other components such as a display or a transceiver.

The memory 940 is a computer-readable recording medium and may include a permanent mass storage device such as a random access memory (RAM), a read only memory (ROM), and a disk drive. In addition, the memory 940 may store program codes for the operating system 941 and the blockchain-based P2P prosuming routine 942. These software components may be loaded from a computer-readable recording medium separate from the memory 940 using a drive mechanism (not shown). Such a separate computer-readable recording medium may include a computer-readable recording medium (not shown) such as a floppy drive, a disk, a tape, a DVD/CD-ROM drive, or a memory card. In another embodiment, software components may be loaded into the memory 940 through a network interface 930 rather than a computer-readable recording medium.

The bus 920 may enable communication and data transmission between components of the blockchain-based P2P power transaction brokerage service system 900. The bus 920 may be configured using a high-speed serial bus, a parallel bus, a storage area network (SAN), and/or other suitable communication technology.

The network interface 930 may be a computer hardware component for connecting the blockchain-based P2P power transaction brokerage service system 900 to a computer network. The network interface 930 may connect the blockchain-based P2P power transaction brokerage service system 900 to a computer network through a wireless or wired connection.

The database 950 may serve to store and maintain all information necessary for a blockchain-based P2P power transaction brokerage service. 9 shows that the database 950 is built and included in the block chain-based P2P power transaction intermediary service system 900, but is not limited thereto, and may be omitted depending on the system implementation method or environment, or the entire Or, it is also possible that some databases exist as external databases built on separate and different systems.

The processor 910 may be configured to process instructions of a computer program by performing basic arithmetic, logic, and input/output operations of the blockchain-based P2P power transaction brokerage service system 900. Instructions may be provided to the processor 910 by the memory 940 or the network interface 930 and via the bus 920. The processor 910 may be configured to execute program codes for the information sharing unit 911 and the service providing unit 912. Such program codes may be stored in a recording device such as the memory 940.

The information sharing unit 911, the service providing unit 912, and the DC power relay 960 may be configured to perform the steps 110 to 130 of FIG. 1 and the steps 710 to 740 of FIG. 7. have.

The information sharing unit 911 shares information for establishing a P2P power transaction information sharing system between users. The information sharing unit 911 builds a blockchain technology-based mainnet and transaction platform, distributes and encrypts surplus power transaction information, and stores P2P power between users using the mainnet and transaction platform and stored surplus power transaction information. Build a transaction information sharing system.

The service provider 912 performs blockchain-based P2P processing between users through a P2P power transaction information sharing system. The service provider 912 monitors the user's power generation, consumption, and storage. In addition, monitoring and forecasting of demand and supply of electricity are analyzed, electricity transactions between users are monitored, and compensation is paid and settled.

The DC power relay 960 performs DC power relay between the DC transmitter and the DC receiver using a PSS (Power Sharing Switch) method. The DC power relay 960 measures the transmission amount, reception amount, loss amount, and cost of the DC sender and DC receiver in each step, converts it into a block chain, and stores it so that forgery and alteration is impossible. In addition, by using the circuit switching switching method, data communication lines of multiple speeds are time-divided, and a line is set for each communication between DC sender and DC receiver through multiplex switching, and power transaction between DC sender and DC receiver is performed by transmitting DC. do. The DC power relay 960 according to an embodiment of the present invention uses a two-step PSS method to minimize crosspoints to two to four.

The apparatus described above may be implemented as a hardware component, a software component, and/or a combination of a hardware component and a software component. For example, the devices and components described in the embodiments include, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA), It may be implemented using one or more general purpose or special purpose computers, such as a programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications executed on the operating system. Further, the processing device may access, store, manipulate, process, and generate data in response to the execution of software. For the convenience of understanding, although it is sometimes described that one processing device is used, one of ordinary skill in the art, the processing device is a plurality of processing elements and/or a plurality of types of processing elements. It can be seen that it may include. For example, the processing device may include a plurality of processors or one processor and one controller. In addition, other processing configurations are possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of these, configuring the processing unit to operate as desired or processed independently or collectively. You can command the device. Software and/or data may be interpreted by a processing device or, to provide instructions or data to a processing device, of any type of machine, component, physical device, virtual equipment, computer storage medium or device. Can be embodyed. The software may be distributed over networked computer systems and stored or executed in a distributed manner. Software and data may be stored on one or more computer-readable recording media.

The method according to the embodiment may be implemented in the form of program instructions that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like alone or in combination. The program instructions recorded on the medium may be specially designed and configured for the embodiment, or may be known and usable to those skilled in computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -A hardware device specially configured to store and execute program instructions such as magneto-optical media, and ROM, RAM, flash memory, and the like. Examples of program instructions include not only machine language codes such as those produced by a compiler, but also high-level language codes that can be executed by a computer using an interpreter or the like.

Although the embodiments have been described by the limited embodiments and drawings as described above, various modifications and variations can be made from the above description to those of ordinary skill in the art. For example, the described techniques are performed in a different order from the described method, and/or components such as systems, structures, devices, circuits, etc. described are combined or combined in a form different from the described method, or other components Alternatively, even if substituted or substituted by an equivalent, an appropriate result can be achieved.

Therefore, other implementations, other embodiments, and those equivalent to the claims also fall within the scope of the claims to be described later.

Claims (11)

Connecting a DC sender and a DC receiver using a PSS (Power Sharing Switch) method;
Transmitting DC power from a DC sender to a DC receiver; And
Terminating the connection between the DC sender and the DC receiver
Including,
Performs DC power relay between DC sender and DC receiver using PSS (Power Sharing Switch) method,
The PSS method uses the concept of 2-step switching to minimize the number of crosspoints to a predetermined number smaller than the value of'the number of DC transmitters x the number of DC receivers', and the DC power between the DC sender and the DC receiver Relaying is performed through a predetermined number of crosspoints.
DC power relay switching method. The method of claim 1,
DC power relay switching method,
In each step, the amount of transmission, reception, loss, and cost of the DC sender and DC receiver are measured and converted into a block chain and stored so that forgery and alteration is impossible
DC power relay switching method. The method of claim 1,
PSS method,
A circuit-switching switching method is used to spatially divide a plurality of power-switching lines, establish a line for each communication between a DC sender and a DC receiver, and perform a power transaction between a DC sender and a DC receiver by transmitting DC.
DC power relay switching method. delete Building a mainnet and a transaction platform based on blockchain technology;
Distributing, encrypting, and storing surplus power transaction information;
Establishing a P2P power transaction information sharing system between users by using the mainnet and the transaction platform and the stored surplus power transaction information; And
Performing blockchain-based P2P processing between users using P2P power transaction information shared through the P2P power transaction information sharing system
Including,
The step of performing blockchain-based P2P processing between users using P2P power transaction information shared through the P2P power transaction information sharing system,
Performs DC power relay between DC sender and DC receiver using PSS (Power Sharing Switch) method,
Time-division of data communication lines of multiple speeds using the PSS method, establishing a line for each communication between DC sender and DC receiver through multiple exchanges, and performing power transaction between DC sender and DC receiver by transmitting DC,
The PSS method uses the concept of 2-step switching to minimize the number of crosspoints to a predetermined number smaller than the value of'the number of DC transmitters x the number of DC receivers', and the DC power between the DC sender and the DC receiver Relaying is performed through a predetermined number of crosspoints.
Blockchain-based P2P power transaction brokerage service method. The method of claim 5,
The step of performing blockchain-based P2P processing between users using P2P power transaction information shared through the P2P power transaction information sharing system,
Monitoring the user's electricity generation, consumption, and storage, monitoring the demand and supply of electricity, and analyzing the demand forecast
Blockchain-based P2P power transaction brokerage service method including a. The method of claim 5,
The step of performing blockchain-based P2P processing between users using P2P power transaction information shared through the P2P power transaction information sharing system,
Monitoring electricity transactions between users and performing payment and settlement of compensation amount
Blockchain-based P2P power transaction brokerage service method including a. An information sharing unit for sharing information for establishing a P2P power transaction information sharing system between users;
A service provider that performs blockchain-based P2P processing between users through a P2P power transaction information sharing system; And
DC power relay that relays DC power between DC transmitter and DC receiver using PSS (Power Sharing Switch) method
Including,
The DC power relay unit,
Measure the amount of transmission, amount of reception, loss, and cost of the DC sender and DC receiver, and block it with a block chain and store it so that forgery and alteration is impossible
Time-division of data communication lines of multiple speeds using the PSS method, establishing a line for each communication between DC sender and DC receiver through multiple exchanges, and performing power transaction between DC sender and DC receiver by transmitting DC,
The PSS method uses the concept of 2-step switching to minimize the number of crosspoints to a predetermined number smaller than the value of'the number of DC transmitters x the number of DC receivers', and the DC power between the DC sender and the DC receiver Relaying is performed through a predetermined number of crosspoints.
Blockchain-based P2P power transaction brokerage service system. The method of claim 8,
The information sharing unit,
It builds a blockchain technology-based mainnet and transaction platform, distributes and encrypts and stores surplus power transaction information, and establishes a P2P power transaction information sharing system between users using the mainnet and transaction platform and stored surplus power transaction information.
Blockchain-based P2P power transaction brokerage service system. The method of claim 8,
The service provider,
It monitors the user's electricity production, consumption, and storage, monitors the demand and supply of electricity, analyzes demand forecast, monitors the electricity transaction between users, and performs payment and settlement of the compensation amount.
Blockchain-based P2P power transaction brokerage service system. delete

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