CN116186734A - Power grid dispatching instruction information processing method in block chain network - Google Patents

Abstract

The invention discloses a power grid dispatching instruction information processing method in a blockchain network, which is characterized in that the whole flow of dispatching operation dispatching instruction is stored and checked by a blockchain on the basis of the storage of a dispatching instruction operation traditional database, and a dispatcher and plant station personnel finish the operations of checking, dispatching, repeating, returning, receiving, confirming and the like on the chain and automatically generate blocks. The invention improves the safety of the network signaling system, ensures the traceability of the whole scheduling operation process and ensures that the operation cannot be tampered.

Description

Power grid dispatching instruction information processing method in block chain network

Technical Field

The invention belongs to the technical field of power grid dispatching operation, and particularly relates to a power grid dispatching instruction information processing method in a block chain network.

Background

At present, the rapid development of the power grid has the defects that the power grid is extremely large in scale, the number of the power grid dispatching operation business types is rapidly increased due to multiple factors such as the input of new energy in an alternating-current/direct-current ultra-high voltage large capacity, the ultra-scale grid connection, the reform of an electric power market and the like, and the intensity is increasingly increased. The window period of the switching operation is continuously shortened, and the number of short-term peak scheduling operations is greatly increased. In a telephone or networking command mode adopted by the traditional scheduling operator during the command scheduling operation, the command scheduling operation comprises a large amount of repeated labor of physical type, the manual processing flow is complex, and the efficiency is low. In addition, in recent years, the reduction of dispatching personnel, the increase of workload and working requirements are year by year, and the 'congestion' of dispatching switching operation business and the pressure of personnel are prominent.

According to related function specifications, the dispatching operation ticket networked command effectively promotes the dispatching switching operation efficiency, but only converts the real-time telephone command into a time-delay networked command mode, so that the dispatching switching operation mode is not changed fundamentally, and the physical repeated labor of dispatching operators cannot be reduced further. The networked down command of the switching operation is scheduled, so that the real-time operation efficiency is guaranteed to be regulated and controlled, and meanwhile, the authenticity and the credibility of each operation are also guaranteed.

The network signaling system is combined with the blockchain technology by combining the characteristics of trustability, non-tampering, traceability and the like of the blockchain technology, so that the safety of the network signaling system is improved, the traceability of the whole scheduling operation process is ensured, the operation cannot be tampered, and the monitoring is easy.

Disclosure of Invention

The invention aims to provide a power grid dispatching instruction information processing method in a blockchain network, which introduces a blockchain technology into a dispatching operation business process, increases the whole process of dispatching operation dispatching blockchain storage and checking on the basis of dispatching operation traditional database storage, improves the safety of a network dispatching system, ensures the traceability of the whole dispatching operation process and can not be tampered with.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a power grid dispatching instruction information processing method in a block chain network, which comprises the following steps:

encrypting and uploading the dispatch ticket operation instruction to generate an operation instruction information block and a digital signature;

starting scheduling pre-command issuing through a master station, encrypting scheduling pre-command issuing information issued by the master station, uploading the encrypted scheduling pre-command issuing information to generate a pre-command issuing information block, and linking the encrypted scheduling pre-command issuing information block with the operation instruction information block to form a chain;

the method comprises the steps that a station end receives a scheduling pre-order sent by a master station, performs scheduling pre-order signing, encrypts and uplinks pre-order confirmation signing information sent by the station end to generate a pre-order signing confirmation information block, and links the pre-order signing confirmation information block with the pre-order sending information block to form a chain;

monitoring and authorizing an instruction to be operated, encrypting and uplink scheduling forward monitoring authorization information issued by a master station to generate a forward monitoring information block, and linking the forward monitoring information block with the forward signing confirmation information area to form a chain;

starting scheduling normal command issuing through a master station, encrypting and uplink scheduling normal command issuing information issued by the master station to generate a normal command issuing block, and linking the normal command issuing block with the normal command monitoring information block to form a chain;

receiving scheduling command issuing information issued by a master station through a factory station, performing command signing and repeating, encrypting and uplink the command signing and repeating information sent by the factory station to generate a pre-command signing and repeating information block, and linking the pre-command signing and repeating information block with the command issuing block to form a chain;

the master station receives and confirms the forward order reciting information sent by the factory station end, encrypts and links the forward order reciting confirmation information issued by the master station to generate a scheduling confirmation information block, and links the scheduling confirmation information block with the forward order reciting information block to form a chain;

starting operation according to the scheduling command by the station end, and completing command return at the network command receiving end after the operation; encrypting and uplink the normal command return information sent by the factory station to generate a normal command return information block, and linking the normal command return information block with the scheduling confirmation information block to form a chain;

the method comprises the steps that a master station receives forward command return information sent by a factory station, and receives the forward command return information, encrypts and uplinks the forward command return information sent by the master station to generate a forward command return information block, and links the forward command return information block into a chain;

and receiving scheduling command receiving information issued by the master station through the station, carrying out command returning confirmation, encrypting the command returning confirmation information sent by the station to generate a station confirmation information block, and linking the station confirmation information block with the scheduling command receiving information block to form a chain.

Further, the encrypting and uplink the dispatch ticket operation instruction to generate an operation instruction information block and a digital signature includes:

transmitting the operation instruction content of the dispatch ticket to a block designated dispatch node;

and performing uplink event triggering and instruction encryption uplink through a block chain to generate an operation instruction information block and a digital signature.

Further, the encrypting and uplink the scheduling pre-command signaling information issued by the master station to generate a pre-command signaling information block, and linking the pre-command signaling information block with the operation command information block to form a chain includes:

starting to schedule the pre-command issuing by the master station, and issuing the scheduling pre-command issuing to the station end through the networked issuing system;

when a scheduling pre-command issue is issued, carrying out consistency check on the current operation instruction information and the operation instruction information stored on the block chain;

after verification is passed, encrypting and linking scheduling pre-command issuing information issued by a master station to generate a pre-command issuing information block;

and linking the hash value of the generated pre-command signaling information block with the operation command information block generated in the last step to form a chain.

Further, the encrypting and uplink the pre-order confirmation signing information sent by the station end generates a pre-order signing confirmation information block, and links with the pre-order signing confirmation information block into a chain, which comprises the following steps:

receiving a scheduling pre-command issued by a master station through a station end;

consistency checking is carried out on the received scheduling pre-command transmitting command and scheduling pre-command transmitting information stored in a blockchain;

after verification is passed, the scheduling pre-order is confirmed and signed, and the pre-order confirmation signing information is encrypted and uplink to generate a pre-order signing confirmation information block;

and linking the hash value of the generated pre-order signing confirmation information block with the pre-order issuing information block generated in the last step into a chain.

Further, the encrypting and uplink the scheduling forward monitoring authorization information issued by the master station to generate a forward monitoring information block, and linking the forward monitoring information block with the forward signing confirmation information block to form a chain includes:

monitoring an instruction to be operated before a scheduling command is issued, and pushing the current instruction information to be operated and an operation sequence extracted from the instruction information to a blockchain;

performing consistency check on the current instruction information to be operated and the operation instruction information stored on the blockchain;

after the consistency check is passed, corresponding business security check is carried out;

after the security check is passed, monitoring and authorizing are carried out, and the scheduling normal monitoring and authorizing information is encrypted and uplink to generate a normal monitoring information block;

and the hash value of the generated normal monitoring information block is linked with the pre-order signing confirmation information block generated in the last step to form a chain.

Further, the encrypting and uplink the scheduling normal command issuing information issued by the master station generates a normal command issuing block, and links the normal command issuing block with the normal command monitoring information block to form a chain, which comprises the following steps:

starting to schedule the forward command by the master station, and issuing the scheduling forward command to the station end through the networked forward command system;

when a scheduling command is issued, carrying out consistency check on the current operation instruction information and the operation instruction information stored on the block chain;

after verification is passed, issuing a scheduling normal command, encrypting and linking the scheduling normal command issuing information, and generating a normal command issuing block;

and the hash value of the generated normal command issuing block is linked with the normal command monitoring information block generated in the last step to form a chain.

Further, the encrypting and uplink the forward signing and repeating information sent by the factory station generates a pre-signing, signing and repeating information block, and links with the forward signing and repeating information block into a chain, which comprises:

receiving scheduling command issuing information issued by a master station through a station;

consistency check is carried out on the received scheduling normal command issuing information and the scheduling normal command issuing information stored in the blockchain;

after verification is passed, forward order reciting is carried out, after the forward order reciting is passed, the forward order reciting information of the factory station is encrypted and uplink to generate a forward order reciting information block;

and the hash value of the information block is repeated through the generated pre-order sign and the generated forward order issue block in the last step are linked into a chain.

Further, the encrypting and uplink the scheduling positive-order reciting confirmation information issued by the master station to generate a scheduling confirmation information block, and linking the scheduling confirmation information block with the pre-order reciting confirmation information block to form a chain comprises the following steps:

the master station receives the forward order signing and repeating information sent by the factory station end;

consistency check is carried out on the received forward order signing and repeating information and the scheduling forward order sending information stored in the block chain;

after verification, confirmation is carried out, encryption and uplink are carried out on the scheduling and repeating confirmation information, and a scheduling confirmation information block is generated;

and the hash value of the generated scheduling confirmation information block is linked with the pre-order signing and repeating information block generated in the last step to form a chain.

Further, the encrypting and uplink the forward command return information sent by the station generates a forward command return information block, and links the forward command return information block with the scheduling confirmation information block to form a chain, which comprises the following steps:

the factory station starts to operate after receiving the confirmation of the scheduling command repeating, and returns commands at the network command sending and receiving end after the operation;

when issuing a return instruction, carrying out consistency check on an operation instruction for executing the return instruction currently and scheduling forward instruction issuing information stored on a block chain;

after verification is passed, encrypting and uplink the station normal command return information to generate a normal command return information block;

and the hash value of the generated normal loop information block is linked with the scheduling confirmation information block generated in the last step to form a chain.

Further, the encrypting and uplink the scheduling and normal command receiving information issued by the master station to generate a scheduling and command receiving information block, and linking the scheduling and command receiving information block with the normal command receiving information block to form a chain includes:

the master station receives the forward command return information sent by the factory station, and performs consistency check on the received forward command return information and the scheduling forward command sending information stored in the block chain;

after the verification is passed, the receiving and ordering is carried out, and the scheduling and ordering receiving and ordering information is encrypted and uplink to generate a scheduling and ordering information block;

and the hash value of the generated scheduling receipt information block is linked with the normal receipt information block generated in the last step to form a chain.

Further, the encrypting and uplink the feedback confirmation information sent by the station to generate a station confirmation information block, and linking the station confirmation information block with the scheduling and receiving information block to form a chain includes:

receiving scheduling command receiving information issued by a master station by a station end, and carrying out consistency check on the received scheduling command receiving information and scheduling command issuing information stored in a block chain;

after verification is passed, performing command returning confirmation, encrypting and linking command returning confirmation information of the station, and generating a station confirmation information block;

and the hash value of the generated station confirmation information block is linked with the scheduling receipt information block generated in the last step to form a chain.

The beneficial effects of the invention are as follows:

the invention provides a power grid dispatching instruction information processing method in a blockchain network, which adds the whole process of blockchain storage and check of dispatching operation dispatching on the basis of traditional database storage of dispatching operation, and improves the safety of a network dispatching system by utilizing the key techniques of blockchain such as centralized data encryption storage, uplink, certificate storage, synchronization, authority setting, encryption privacy and the like, thereby ensuring traceability of the whole dispatching operation process and preventing operation from being tampered.

Drawings

Fig. 1 is a flowchart of a method for processing power grid dispatching instruction information in a blockchain network according to an embodiment of the present invention.

Detailed Description

The present invention is further illustrated in the accompanying drawings and detailed description which are to be understood as being merely illustrative of the invention and not limiting of its scope, and various modifications of the invention, which are equivalent to those skilled in the art upon reading the invention, will fall within the scope of the invention as defined in the appended claims.

The embodiment provides a power grid dispatching instruction information processing method in a block chain network, which stores dispatching instruction information in a uplink mode, and updates operation information of dispatching instructions by adding new blocks in the block chain network when issuing instructions. The specific operation flow of the method is shown in fig. 1, which comprises the following steps:

s1, encrypting and uplink scheduling ticket operation instructions to generate operation instruction information blocks and digital signatures, wherein the method comprises the following steps of:

transmitting the operation instruction content of the dispatch ticket to a block designated dispatch node (such as a province dispatch node and a county dispatch node);

and performing uplink event triggering and instruction encryption uplink through a block chain to generate an operation instruction information block and a digital signature.

S2, encrypting and uplink scheduling pre-command sending information issued by the master station to generate a pre-command sending information block, and linking the pre-command sending information block with the last step to form a chain, wherein the method comprises the following steps of:

starting to schedule the pre-command issuing by the master station, and issuing the scheduling pre-command issuing to the station end through the networked issuing system;

when a scheduling pre-command issue is issued, carrying out consistency check on the current operation instruction information and the operation instruction information stored on the block chain;

after verification is passed, encrypting and linking scheduling pre-command issuing information issued by a master station to generate a pre-command issuing information block;

and the hash value of the generated pre-command signaling information block is linked with the operation command information block generated in the last step to form a chain.

It should be noted that, performing consistency check on the current operation instruction information and the operation instruction information on the blockchain includes:

analyzing the digital signature of the operation instruction information block through the public key to acquire the operation instruction information stored in the operation instruction information block;

and comparing the consistency of the current operation instruction information with the operation instruction information stored in the acquired operation instruction information block.

S3, encrypting and uploading the pre-order confirmation signing information sent by the station end to generate a pre-order signing confirmation information block, and linking the pre-order signing confirmation information block with the last step to form a chain, wherein the method comprises the following steps of:

receiving a scheduling pre-command issued by a master station through a station end;

consistency checking is carried out on the received scheduling pre-instruction and scheduling pre-instruction information on the blockchain;

after verification is passed, scheduling pre-order signing is carried out, encryption and uplink are carried out on pre-order confirmation signing information, and a pre-order signing confirmation information block is generated;

and linking the hash value of the generated pre-order signing confirmation information block with the pre-order issuing information block generated in the last step into a chain.

It should be noted that, performing consistency check on the received scheduling pre-instruction and the scheduling pre-instruction information stored in the blockchain includes:

the digital signature of the operation instruction information block is analyzed through the public key, and scheduling pre-instruction information stored in the pre-instruction information block is obtained;

and consistency comparison is carried out on the received scheduling pre-command issuing information and the scheduling pre-command issuing information stored in the acquired pre-command issuing information block.

S4, encrypting and uplink the modulated monitoring authorization information to generate a normal monitoring information block, and linking the normal monitoring information block with the last step to form a chain, wherein the method comprises the following steps of:

monitoring an instruction to be operated before a scheduling command is issued, and pushing the current instruction information to be operated and an operation sequence (serial number) extracted from the instruction information to a blockchain;

performing consistency check on the current instruction information to be operated and the operation instruction information stored on the blockchain;

after the consistency check is passed, corresponding business security check is carried out;

after the security check is passed, monitoring and authorizing are carried out, and the scheduling normal monitoring and authorizing information is encrypted and uplink to generate a normal monitoring information block;

and the hash value of the generated normal monitoring information block is linked with the pre-order signing confirmation information block generated in the last step to form a chain.

It should be noted that, performing consistency check on the instruction information to be operated currently and the operation instruction information stored in the blockchain includes:

analyzing the digital signature of the operation instruction information block through the public key to acquire the operation instruction information stored in the operation instruction information block;

and comparing the consistency of the operation instruction information to be operated currently with the operation instruction information stored in the obtained operation instruction information block according to the operation sequence.

S5, encrypting and uplink the scheduling forward command issuing information issued by the master station to generate a forward command issuing block, and linking the forward command issuing block with the last step to form a chain, wherein the method comprises the following steps of:

starting to schedule a command by a master station, and transmitting a command scheduling request and an operation sequence (sequence number) to a block designated scheduling node (such as a province adjustment point and a county adjustment point) through a transit service;

performing consistency check on the current operation instruction information and the operation instruction information stored on the blockchain;

after verification is passed, issuing a scheduling normal command to a station end through a networked command issuing system, encrypting and linking the scheduling normal command issuing information, and generating a normal command issuing block;

and the hash value of the generated normal command issuing block is linked with the normal command monitoring information block generated in the last step to form a chain.

It should be noted that, performing consistency check on the current operation instruction information and the operation instruction information stored in the blockchain includes:

analyzing the digital signature of the operation instruction information block through the public key to acquire the operation instruction information stored in the operation instruction information block;

and comparing the current operation instruction information with the operation instruction information stored in the acquired operation instruction information block according to the operation sequence.

S6, encrypting and uploading the forward order signing and repeating information sent by the factory station to generate a pre-order signing and repeating information block, and linking with the last step to form a chain, wherein the method comprises the following steps of:

receiving scheduling command issuing information issued by a master station through a station;

consistency check is carried out on the received scheduling normal command issuing information and the scheduling normal command issuing information stored in the blockchain;

after verification is passed, normal order reciting and repeating information of the factory station is encrypted and uplink after the normal order reciting and repeating information passes, and a normal order reciting and repeating information block is generated;

and the hash value of the information block is repeated through the generated pre-order sign and the generated forward order issue block in the last step are linked into a chain.

It should be noted that, performing consistency check on the received scheduling normal command issuing information and the scheduling normal command issuing information stored in the blockchain includes:

analyzing the digital signature of the operation instruction information block through the public key to acquire the operation instruction information stored in the operation instruction information block;

and comparing the consistency of the received scheduling command issuing information with the operation command information stored in the acquired operation command information block.

S7, encrypting and uplink the scheduling forward recitation confirmation information issued by the master station to generate a scheduling confirmation information block, and linking the scheduling confirmation information block with the last step to form a chain, wherein the method comprises the following steps of:

the master station receives the forward order signing and repeating information sent by the factory station end;

consistency check is carried out on the received forward order signing and repeating information and the scheduling forward order sending information stored in the block chain;

after verification, confirmation is carried out, encryption and uplink are carried out on the scheduling and repeating confirmation information, and a scheduling confirmation information block is generated;

and the hash value of the generated scheduling confirmation information block is linked with the pre-order signing and repeating information block generated in the last step to form a chain.

S8, encrypting and uplink the forward command return information sent by the factory station to generate a forward command return information block, and linking the forward command return information block with the last step to form a chain, wherein the method comprises the following steps of:

the factory station starts to operate after receiving the confirmation of the scheduling command repeating, and after the operation, the factory station finishes the command returning at the network command transmitting and receiving end;

when issuing a return instruction, carrying out consistency check on an operation instruction for executing the return instruction currently and scheduling forward instruction issuing information stored on a block chain;

after verification is passed, encrypting and uplink the station normal command return information to generate a normal command return information block;

and the hash value of the generated normal loop information block is linked with the scheduling confirmation information block generated in the last step to form a chain.

S9, encrypting and uplink the scheduling forward command receiving information issued by the master station to generate a scheduling receiving information block, and linking with the last step to form a chain, wherein the method comprises the following steps of:

the master station receives the forward command return information sent by the factory station, and performs consistency check on the received forward command return information and the scheduling forward command sending information stored in the block chain;

after the verification is passed, the receiving and ordering is carried out, and the scheduling and ordering receiving and ordering information is encrypted and uplink to generate a scheduling and ordering information block;

and the hash value of the generated scheduling receipt information block is linked with the normal receipt information block generated in the last step to form a chain.

S10, encrypting the return acknowledgement information sent by the station to generate a station acknowledgement information block, and linking the station acknowledgement information block with the last step to form a chain, wherein the method comprises the following steps of:

receiving scheduling command receiving information issued by a master station by a station end, and carrying out consistency check on the received scheduling command receiving information and scheduling command issuing information stored in a block chain;

after verification is passed, performing command returning confirmation, encrypting and linking command returning confirmation information of the station, and generating a station confirmation information block;

and the hash value of the generated station confirmation information block is linked with the scheduling receipt information block generated in the last step to form a chain.

It should be noted that, in this embodiment, the consistency check manners of the steps are the same, so that a detailed description is omitted.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment, or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

Finally, it should be noted that: the above embodiments are only for illustrating the technical aspects of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the above embodiments, it should be understood by those of ordinary skill in the art that: modifications and equivalents may be made to the specific embodiments of the invention without departing from the spirit and scope of the invention, which is intended to be covered by the claims.

Claims (11)

1. The power grid dispatching instruction information processing method in the block chain network is characterized by comprising the following steps of:

encrypting and uploading the dispatch ticket operation instruction to generate an operation instruction information block and a digital signature;

starting scheduling pre-command issuing through a master station, encrypting scheduling pre-command issuing information issued by the master station, uploading the encrypted scheduling pre-command issuing information to generate a pre-command issuing information block, and linking the encrypted scheduling pre-command issuing information block with the operation instruction information block to form a chain;

the method comprises the steps that a station end receives a scheduling pre-order sent by a master station, performs scheduling pre-order signing, encrypts and uplinks pre-order confirmation signing information sent by the station end to generate a pre-order signing confirmation information block, and links the pre-order signing confirmation information block with the pre-order sending information block to form a chain;

monitoring and authorizing an instruction to be operated, encrypting and uplink scheduling forward monitoring authorization information issued by a master station to generate a forward monitoring information block, and linking the forward monitoring information block with the forward signing confirmation information area to form a chain;

starting scheduling normal command issuing through a master station, encrypting and uplink scheduling normal command issuing information issued by the master station to generate a normal command issuing block, and linking the normal command issuing block with the normal command monitoring information block to form a chain;

receiving scheduling command issuing information issued by a master station through a factory station, performing command signing and repeating, encrypting and uplink the command signing and repeating information sent by the factory station to generate a pre-command signing and repeating information block, and linking the pre-command signing and repeating information block with the command issuing block to form a chain;

the master station receives and confirms the forward order reciting information sent by the factory station end, encrypts and links the forward order reciting confirmation information issued by the master station to generate a scheduling confirmation information block, and links the scheduling confirmation information block with the forward order reciting information block to form a chain;

starting operation according to the scheduling command by the station end, and completing command return at the network command receiving end after the operation; encrypting and uplink the normal command return information sent by the factory station to generate a normal command return information block, and linking the normal command return information block with the scheduling confirmation information block to form a chain;

the method comprises the steps that a master station receives forward command return information sent by a factory station, and receives the forward command return information, encrypts and uplinks the forward command return information sent by the master station to generate a forward command return information block, and links the forward command return information block into a chain;

and receiving scheduling command receiving information issued by the master station through the station, carrying out command returning confirmation, encrypting the command returning confirmation information sent by the station to generate a station confirmation information block, and linking the station confirmation information block with the scheduling command receiving information block to form a chain.

2. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting the dispatching ticket operation instruction generates an operation instruction information block and a digital signature, and the method comprises the following steps:

transmitting the operation instruction content of the dispatch ticket to a block designated dispatch node;

and performing uplink event triggering and instruction encryption uplink through a block chain to generate an operation instruction information block and a digital signature.

3. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting the dispatching pre-instruction issue information issued by the master station to generate a pre-instruction issue information block, and linking the pre-instruction issue information block with the operation instruction information block to form a chain, comprises:

starting to schedule the pre-command issuing by the master station, and issuing the scheduling pre-command issuing to the station end through the networked issuing system;

when a scheduling pre-command issue is issued, carrying out consistency check on the current operation instruction information and the operation instruction information stored on the block chain;

after verification is passed, encrypting and linking scheduling pre-command issuing information issued by a master station to generate a pre-command issuing information block;

and linking the hash value of the generated pre-command signaling information block with the operation command information block generated in the last step to form a chain.

4. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein the encrypting and uplink the pre-order confirmation signing information sent by the station end generates a pre-order signing confirmation information block, and links the pre-order signing confirmation information block with the pre-order signing confirmation information block into a chain, and the method comprises the following steps:

receiving a scheduling pre-command issued by a master station through a station end;

consistency checking is carried out on the received scheduling pre-command transmitting command and scheduling pre-command transmitting information stored in a blockchain;

after verification is passed, the scheduling pre-order is confirmed and signed, and the pre-order confirmation signing information is encrypted and uplink to generate a pre-order signing confirmation information block;

and linking the hash value of the generated pre-order signing confirmation information block with the pre-order issuing information block generated in the last step into a chain.

5. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting and uplink the dispatching forward monitoring authorization information issued by the master station to generate a forward monitoring information block and linking the forward monitoring information block with the forward signing confirmation information block comprises:

monitoring an instruction to be operated before a scheduling command is issued, and pushing the current instruction information to be operated and an operation sequence extracted from the instruction information to a blockchain;

performing consistency check on the current instruction information to be operated and the operation instruction information stored on the blockchain;

after the consistency check is passed, corresponding business security check is carried out;

after the security check is passed, monitoring and authorizing are carried out, and the scheduling normal monitoring and authorizing information is encrypted and uplink to generate a normal monitoring information block;

and the hash value of the generated normal monitoring information block is linked with the pre-order signing confirmation information block generated in the last step to form a chain.

6. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting and uplink the dispatching forward signaling information issued by the master station to generate a forward signaling block and linking the forward signaling block with the forward signaling block into a chain comprises:

starting to schedule the forward command by the master station, and issuing the scheduling forward command to the station end through the networked forward command system;

when a scheduling command is issued, carrying out consistency check on the current operation instruction information and the operation instruction information stored on the block chain;

after verification is passed, issuing a scheduling normal command, encrypting and linking the scheduling normal command issuing information, and generating a normal command issuing block;

and the hash value of the generated normal command issuing block is linked with the normal command monitoring information block generated in the last step to form a chain.

7. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein the encrypting and uplink the forward order signing and repeating information sent by the factory station generates a pre-order signing and repeating information block, and links the pre-order signing and repeating information block with the forward order signing and repeating information block into a chain, and the method comprises the following steps:

receiving scheduling command issuing information issued by a master station through a station;

consistency check is carried out on the received scheduling normal command issuing information and the scheduling normal command issuing information stored in the blockchain;

after verification is passed, forward order reciting is carried out, after the forward order reciting is passed, the forward order reciting information of the factory station is encrypted and uplink to generate a forward order reciting information block;

and the hash value of the information block is repeated through the generated pre-order sign and the generated forward order issue block in the last step are linked into a chain.

8. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting and uplink the dispatching forward recitation confirmation information issued by the master station to generate a dispatching confirmation information block and linking the dispatching forward recitation confirmation information block with the pre-ordered forward recitation information block into a chain comprises:

the master station receives the forward order signing and repeating information sent by the factory station end;

consistency check is carried out on the received forward order signing and repeating information and the scheduling forward order sending information stored in the block chain;

after verification, confirmation is carried out, encryption and uplink are carried out on the scheduling and repeating confirmation information, and a scheduling confirmation information block is generated;

and the hash value of the generated scheduling confirmation information block is linked with the pre-order signing and repeating information block generated in the last step to form a chain.

9. The method for processing power grid dispatching command information in a blockchain network according to claim 1, wherein encrypting and uplink the normal command feedback information sent by the plant station to generate a normal command feedback information block, and linking the normal command feedback information block with the dispatching confirmation information block to form a chain, comprises:

the factory station starts to operate after receiving the confirmation of the scheduling command repeating, and returns commands at the network command sending and receiving end after the operation;

when issuing a return instruction, carrying out consistency check on an operation instruction for executing the return instruction currently and scheduling forward instruction issuing information stored on a block chain;

after verification is passed, encrypting and uplink the station normal command return information to generate a normal command return information block;

and the hash value of the generated normal loop information block is linked with the scheduling confirmation information block generated in the last step to form a chain.

10. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting the dispatching command information issued by the master station to generate a dispatching command information block, and linking the dispatching command information block with the command information block to form a chain comprises:

the master station receives the forward command return information sent by the factory station, and performs consistency check on the received forward command return information and the scheduling forward command sending information stored in the block chain;

after the verification is passed, the receiving and ordering is carried out, and the scheduling and ordering receiving and ordering information is encrypted and uplink to generate a scheduling and ordering information block;

and the hash value of the generated scheduling receipt information block is linked with the normal receipt information block generated in the last step to form a chain.

11. The method for processing power grid dispatching instruction information in a blockchain network according to claim 1, wherein encrypting the feedback confirmation information sent by the plant station to generate a plant station confirmation information block, and linking the plant station confirmation information block with the dispatching receipt information block to form a chain, comprises:

receiving scheduling command receiving information issued by a master station by a station end, and carrying out consistency check on the received scheduling command receiving information and scheduling command issuing information stored in a block chain;

after verification is passed, performing command returning confirmation, encrypting and linking command returning confirmation information of the station, and generating a station confirmation information block;

and the hash value of the generated station confirmation information block is linked with the scheduling receipt information block generated in the last step to form a chain.

Images