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CN108985593B - Offshore wind power engineering construction intelligent management and control system based on block chain technology - Google Patents

Offshore wind power engineering construction intelligent management and control system based on block chain technology Download PDF

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CN108985593B
CN108985593B CN201810707126.0A CN201810707126A CN108985593B CN 108985593 B CN108985593 B CN 108985593B CN 201810707126 A CN201810707126 A CN 201810707126A CN 108985593 B CN108985593 B CN 108985593B
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offshore wind
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CN108985593A (en
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黄彬
黄冬明
张启应
刘长智
申悦辰
牛传凯
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MingYang Smart Energy Group Co Ltd
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Abstract

The invention discloses an offshore wind power engineering construction intelligent management and control system based on a block chain technology, which is formed by combining the block chain technology with the offshore wind power engineering construction management and control, wherein the offshore wind power engineering construction management and control comprises the steps of construction preparation, construction transportation, foundation engineering construction, wind power generation equipment installation, engineering observation and detection, wind power plant debugging and trial operation, normal operation of the wind power plant and the like, each step also comprises a subdivided step, and each constructor and manager can be connected into the offshore wind power engineering construction intelligent management and control system through intelligent equipment; the block chain technology comprises a protocol layer, an extension layer, an application layer and an intelligent contract manager. The method can solve the problems that the existing offshore wind power construction condition is complex, the construction organization design link is lack of clear regulations, effective communication mechanisms are lacked among departments, partial designers are insufficient in theory and construction experience, the engineering progress is slowed down and the like.

Description

Offshore wind power engineering construction intelligent management and control system based on block chain technology
Technical Field
The invention relates to the field of offshore wind power technical engineering, in particular to an offshore wind power engineering construction intelligent management and control system based on a block chain technology.
Background
From the current offshore wind power engineering construction condition of China, a construction unit must integrally control the construction process of the offshore wind power engineering.
The block chain is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism, an encryption algorithm and the like, is a decentralized database in nature, and is widely applied to many fields such as security transaction, electronic commerce, intelligent contracts, internet of things, social communication, file storage and the like.
The existing offshore wind power engineering construction management and control has the following defects: the offshore wind power construction condition is complex, the construction organization design link lacks clear regulations, the departments lack effective communication mechanisms, partial designers are insufficient in theory and construction experience, and the engineering progress is slowed down.
Disclosure of Invention
The invention aims to overcome the defects of the prior art, provides an offshore wind power engineering construction intelligent management and control system based on a block chain technology, and can effectively solve the problems that the existing offshore wind power construction condition is complex, the construction organization design link lacks clear regulations, the departments lack an effective communication mechanism, partial designers are insufficient in theory and construction experience, the engineering progress is slowed down and the like.
In order to achieve the purpose, the technical scheme provided by the invention is as follows: an offshore wind power engineering construction intelligent management and control system based on a block chain technology is formed by combining a novel block chain technology with offshore wind power engineering construction management and control, wherein the offshore wind power engineering construction management and control comprises the links of construction preparation, construction transportation, foundation engineering construction, wind power generation equipment installation, engineering observation and detection, wind power plant debugging and trial operation and normal operation of a wind power plant, each link further comprises a respective subdivided link, and each constructor and manager can be connected into the offshore wind power engineering construction intelligent management and control system through intelligent equipment;
the block chain technology comprises a protocol layer, an extension layer, an application layer and an intelligent contract manager;
the protocol layer comprises a storage layer, a network layer and a consensus layer; the storage layer is a data storage structure and is packaged with a chain structure of a bottom layer data block and related data encryption algorithm, encryption signature algorithm and time stamp technology; the network layer comprises a distributed networking method, a P2P networking method, a data propagation mode, a data verification mechanism and a data blocking solution mechanism; the common identification layer is packaged with various common identification algorithms of network nodes, including workload certification PoW, rights and interests certification PoS and share authorization certification DPoS;
the extension layer comprises an excitation layer and a contract layer; the excitation layer comprises various optimization algorithms for exciting the nodes participating in the operation of the block chain; the contract layer is packaged with a classification script, an intelligent contract algorithm and an optimization algorithm, wherein the intelligent contract refers to a programmable contract, the contract is compiled according to a set requirement, and when a set condition is reached, the contract can be automatically completed according to the execution of design, the whole offshore wind power engineering construction management and control is subdivided, and the intelligent contract is written in; each subdivision link comprises task starting conditions, task contents, task requirement support, technical theories, task construction processes, task completion time nodes, problem communication and contact ways to form an intelligent contract, and the subdivision links are linked according to an engineering logic process loop, and after the current intelligent contracts are executed, the following intelligent contracts are automatically executed;
the application layer is packaged with various application programs of the offshore wind power engineering construction management and control intelligent system, and the application programs comprise display task starting conditions, task contents, task demand support objects, technical theory description, task construction processes, task completion time nodes, problem communication responsible persons and contact ways;
the intelligent contract administrator is a main responsible person of an offshore wind power engineering construction team, each responsible person corresponds to an administrator authority code, parameters of the intelligent contract can be adjusted, the intelligent contract comprises time nodes and a construction process, the intelligent contract content can be modified according to actual conditions, the modified content needs to be confirmed by other responsible persons, and after the confirmation degree of all the responsible persons is larger than 80%, the whole block chain is updated and executed according to a new intelligent contract.
Compared with the prior art, the invention has the following advantages and beneficial effects:
1. the problems that the design link of offshore wind power construction organization is lack of clear regulations, effective communication mechanisms are lacked among departments, the theory and construction experience of part of designers are insufficient, the progress of engineering is slowed down and the like are solved.
2. The time node is controllable, and construction efficiency is improved.
3. The intelligent contract administrator can quickly find problems, modify and update the system, so that offshore wind power construction develops towards a more favorable direction.
Drawings
Fig. 1 is a schematic design diagram of an offshore wind power engineering construction intelligent management and control system based on a block chain technology.
FIG. 2 is a flow diagram of an intelligent contract.
FIG. 3 is a diagram of an intelligent contract administrator workflow design.
Detailed Description
The present invention will be further described with reference to the following specific examples.
Referring to fig. 1 to 3, the offshore wind power engineering construction intelligent management and control system based on the block chain technology provided in this embodiment is specifically formed by combining a novel block chain technology with offshore wind power engineering construction management and control, where the offshore wind power engineering construction management and control includes links such as construction preparation, construction transportation, foundation engineering construction, wind power generation equipment installation, engineering observation and detection, wind farm debugging and test operation, and wind farm normal operation. Each link also includes a respective subdivision of links. All links are classified, subdivided and smaller subdivided links are formed, and the subdivided links comprise link starting conditions, task contents, task demand support, technical theories, task construction processes, task completion time nodes, problem communication, contact ways and the like. And (4) each subdivision link is designed according to the engineering flow logic and is executed according to the engineering progress sequence. Each constructor and intelligent contract manager can access the offshore wind power engineering construction intelligent management and control system based on the block chain technology provided by the embodiment through an application program of intelligent equipment such as mobile phone app or a computer.
Each constructor corresponds to one or more intelligent contract parts related to the constructor, for example, an intelligent contract B, when a precondition of the intelligent contract B (namely, an intelligent contract related to the contract B) is completed, an execution condition of the intelligent contract B is triggered, the constructor starts to execute the intelligent contract part according to the intelligent contract B, and when the intelligent contract B is completed, the constructor finishes clicking, namely, starts the next intelligent contract C of the intelligent contract B; if a problem occurs in the execution process, the intelligent contract B provides technical theory support, a task construction process, a problem communication object, a contact way and other methods for constructors according to the previous design scheme, and helps the constructors to quickly complete the intelligent contract B.
The block chain technology comprises a protocol layer, an extension layer, an application layer and an intelligent contract manager.
The designed protocol layer comprises a storage layer, a network layer, a consensus layer and the like; the designed storage layer is a data storage structure technology, and a chain structure of a bottom layer data block, a related data encryption algorithm, an encryption signature algorithm, a timestamp technology and the like are packaged; the network layer comprises a distributed networking method, a P2P networking method, a data transmission mode, a data verification mechanism, a data blocking solution mechanism and the like; the consensus layer encapsulates various consensus algorithms of the network nodes, such as PoW (workload certification), PoS (rights and interests certification), DPoS (stock authorization certification), and the like.
The designed extension layer comprises an excitation layer and a contract layer; the excitation layer comprises various optimization algorithms for exciting the nodes participating in the operation of the block chain; the contract layer encapsulates a classification script, an intelligent contract algorithm and an optimization algorithm, wherein the intelligent contract refers to a programmable contract, the contract is written according to certain requirements, and when certain conditions are met, the contract can be automatically completed according to design execution. And (4) subdivision of the whole offshore wind power engineering construction management and control is realized, and an intelligent contract is written. Each subdivision link comprises task starting conditions, task contents, task requirement support, technical theories, task construction processes, task completion time nodes, problem communication, contact ways and the like to form an intelligent contract, and the subdivision links are linked according to the engineering logic process loop, and after the current intelligent contracts are executed, the following intelligent contracts are automatically executed.
The designed application layer encapsulates various application programs of the offshore wind power engineering construction management and control intelligent system, such as task starting conditions, task contents, task demand support objects, technical theory description, task construction processes, task completion time nodes, problem communication responsible persons, contact ways and the like.
The intelligent contract management system comprises a design intelligent contract manager, a design intelligent contract manager and a design intelligent contract management system, wherein the design intelligent contract manager is a main responsible person of an offshore wind power engineering construction team, each responsible person corresponds to a manager authority code, parameters of an intelligent contract such as time nodes, construction processes and the like can be adjusted, the intelligent contract manager is responsible for supervising and modifying the intelligent contract, the intelligent contract content can be modified according to actual conditions, and when the intelligent contract is executed sequentially according to set time, the intelligent contract manager only needs to supervise; when the intelligent contract has a problem and the problem is still not solved after the constructor operates according to the precaution provided by the intelligent contract, a certain intelligent contract manager in charge of the intelligent contract obtains the system prompt through an application program, starts to coordinate departments, adjust or modify the intelligent contract, the modified content needs to be confirmed by other responsible persons, and after the confirmation degree of all the responsible persons is more than 80%, the whole block chain is updated and executed according to a new intelligent contract.
The above-mentioned embodiments are merely preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, so that the changes in the shape and principle of the present invention should be covered within the protection scope of the present invention.

Claims (1)

1. The utility model provides an offshore wind power engineering construction intelligent management and control system based on block chain technique which characterized in that: the offshore wind power engineering construction intelligent management and control system is formed by combining an offshore wind power engineering construction management and control with a block chain technology, wherein the offshore wind power engineering construction management and control comprises the links of construction preparation, construction traffic transportation, foundation engineering construction, wind power generation equipment installation, engineering observation and detection, wind power plant debugging and test operation and normal operation of the wind power plant, each link further comprises a respective subdivision link, and each constructor and manager can be connected into the offshore wind power engineering construction intelligent management and control system through intelligent equipment;
the block chain technology comprises a protocol layer, an extension layer, an application layer and an intelligent contract manager;
the protocol layer comprises a storage layer, a network layer and a consensus layer; the storage layer is a data storage structure and is packaged with a chain structure of a bottom layer data block and related data encryption algorithm, encryption signature algorithm and time stamp technology; the network layer comprises a distributed networking method, a P2P networking method, a data propagation mode, a data verification mechanism and a data blocking solution mechanism; the common identification layer is packaged with various common identification algorithms of network nodes, including workload certification PoW, rights and interests certification PoS and share authorization certification DPoS;
the extension layer comprises an excitation layer and a contract layer; the excitation layer comprises various optimization algorithms for exciting the nodes participating in the operation of the block chain; the contract layer is packaged with a classification script, an intelligent contract algorithm and an optimization algorithm, wherein the intelligent contract refers to a programmable contract, the contract is compiled according to a set requirement, and when a set condition is reached, the contract can be automatically completed according to the execution of design, the whole offshore wind power engineering construction management and control is subdivided, and the intelligent contract is written in; each subdivision link comprises task starting conditions, task contents, task requirement support, technical theories, task construction processes, task completion time nodes, problem communication and contact ways to form an intelligent contract, and the subdivision links are linked according to an engineering logic process loop, and after the current intelligent contracts are executed, the following intelligent contracts are automatically executed;
the application layer is packaged with various application programs of the offshore wind power engineering construction management and control intelligent system, and the application programs comprise display task starting conditions, task contents, task demand support objects, technical theory description, task construction processes, task completion time nodes, problem communication responsible persons and contact ways;
the intelligent contract administrator is a main responsible person of an offshore wind power engineering construction team, each responsible person corresponds to an administrator authority code, parameters of the intelligent contract can be adjusted, the intelligent contract comprises time nodes and a construction process, the intelligent contract content can be modified according to actual conditions, the modified content needs to be confirmed by other responsible persons, and after the confirmation degree of all the responsible persons is larger than 80%, the whole block chain is updated and executed according to a new intelligent contract.
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CN109872118A (en) * 2018-12-30 2019-06-11 广州骏升建设管理有限公司 The data managing method and system of project supervision
CN111652458B (en) * 2020-04-09 2023-09-26 南京审计大学 Engineering auditing method based on blockchain technology
CN111680968B (en) * 2020-05-25 2023-04-25 中国工商银行股份有限公司 Building rights management system and method based on block chain

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CN107358418A (en) * 2017-06-27 2017-11-17 上海霸贤网络科技有限公司 Electricity transaction weak center management method based on block chain technology
CN107480847A (en) * 2017-06-20 2017-12-15 郑州大学 Energy block chain network and the virtual plant operation based on the network and dispatching method
CN107480987A (en) * 2017-07-25 2017-12-15 浙江大学 Green electric power supply certificate core hair based on block chain technology subscribes method and system
CN107688944A (en) * 2017-07-21 2018-02-13 杭州云象网络技术有限公司 A kind of power system method of commerce based on block chain

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WO2008086801A2 (en) * 2007-01-15 2008-07-24 Vestas Wind Systems A/S A system and method for monitoring and control of wl-nd farms

Patent Citations (4)

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Publication number Priority date Publication date Assignee Title
CN107480847A (en) * 2017-06-20 2017-12-15 郑州大学 Energy block chain network and the virtual plant operation based on the network and dispatching method
CN107358418A (en) * 2017-06-27 2017-11-17 上海霸贤网络科技有限公司 Electricity transaction weak center management method based on block chain technology
CN107688944A (en) * 2017-07-21 2018-02-13 杭州云象网络技术有限公司 A kind of power system method of commerce based on block chain
CN107480987A (en) * 2017-07-25 2017-12-15 浙江大学 Green electric power supply certificate core hair based on block chain technology subscribes method and system

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