The Experts below are selected from a list of 18855 Experts worldwide ranked by ideXlab platform
Xuesong Zhou - One of the best experts on this subject based on the ideXlab platform.
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An overview of self-healing control in smart Distribution Grid
2017 36th Chinese Control Conference (CCC), 2017Co-Authors: Xuesong Zhou, Youjie MaAbstract:Combining with the characteristics of smart Distribution Grid, this paper expounded the architecture, control strategy and key technology of self-healing control in smart Distribution Grid and proposed the “three-layer with seven-unit” architecture and the option method of control strategy. Combining with the characteristics of smart Distribution Grid containing distributed power, this paper introduced the key technology of self-healing control, so as to make up the defects of current self-healing control that the smart Grid features were not fully considered at present, which provided the theoretical basis for the construction of self-healing control.
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The research on smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Xuesong Zhou, Tianxiang Huang, Youjie MaAbstract:This paper introduces the concept of intelligent Distribution network, development of smart Grid technology with meaning and background as well as domestic and foreign research and development status of Smart Distribution Grid. It focuses on the advanced smart Distribution Grid Distribution automation, self-healing Distribution network control technology, AMI technology, the impact of distributed generation and micro-network after the access to the smart Distribution Grid, and construction of smart Distribution network problems to be solved.
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The review of smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Youjie Ma, Xin Tong, Xuesong ZhouAbstract:Smart Distribution Grid(SDG) is the development direction of modern power Grid with self-healing, reliable, high quality, high efficiency, compatibility, interactive features. It is the research focus of the smart Grid and ensuring reliable power and quality power supply. This paper covers the concept, significance, development situation at home and abroad. It also discovers many research problems when we pay more attention to this project. Finally, it introduces the trend and new technology in the development of smart Distribution Grid.
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Research Review on the Smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Xuesong Zhou, Youjie MaAbstract:Smart Distribution Grid(SDG)is the focus of the future smart Grid construction, it will have a profound impact on the operation of power system protection and control. In this paper, the concept and characteristics of SDG are systematically introduced, then brief introduce SDG background, significance, as well as overseas and domestic research status. The key technologies of SDG are discussed, including the Distribution network self-healing control(SHC), Distribution fast simulation and modeling(DFSM), advanced Distribution automation(ADA), advanced metering infrastructure(AMI), active Distribution network (ADN), distributed generation(DG) and smart micro Grid technology. Combined with the current situation of smart Distribution Grid, it points the development tendency of SDG.
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Key technologies of smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Feng Liu, Xuesong Zhou, Zhiqiang GaoAbstract:In order to build a strong smart Grid with Chinese characteristics, the smart Distribution Grid issue is studied. Some present questions hindering the futuristic development of electric power Distribution are proposed. The definition of smart Distribution Grid is given. The detailed characteristics are analysed in the paper, several functional requirements are put forward, and the development in the corresponding field is reviewed. The key technologies deployed for the realization of the smart Distribution Grid are explored in depth, which would give advice for the further research and implementation of Distribution network intellectualization in the future. By incorporating with new technologies like Big Data and Internet of Things, SDG is prone to obtain a new opportunity to develop.
Zhao Ten - One of the best experts on this subject based on the ideXlab platform.
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application technology of big data in smart Distribution Grid and its prospect analysis
Power system technology, 2014Co-Authors: Zhao TenAbstract:In allusion to the application of big data in smart Distribution Grid, the current situation and feature of big data in smart Distribution Grid is analyzed and the data relation network is teased out at first. Secondly, some key technologies involved in big data application of smart Distribution Grid, such as big data storage and processing, and big data analytics, are expounded, and on the basis of that,data value chain and "aircraft type" theoretical framework for big data application is proposed. Finally, in aspects of electricity demand forecasting and coordinated scheduling of power supply and load, development trend analysis and optimal planning of smart Distribution Grid structure, smart power utilization and network dissipation reduction, the application prospect of big data is analyzed, and the application roadmap is presented.
Ping Yi - One of the best experts on this subject based on the ideXlab platform.
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Smart Distribution Grid
Ieee Transactions on Smart Grid, 2011Co-Authors: Xudong Wang, Student Member, Ping YiAbstract:Communication networks play a critical role in smart Grid, as the intelligence of smart Grid is built based on information exchange across the power Grid. In power transmission segments of smart Grid, wired communications are usually adopted to ensure robustness of the backbone power network. In contrast, for a power Distribution Grid, wireless communications provide many benefits such as low cost high speed links, easy setup of connections among different devices/appliances, and so on. Connecting power equipment, devices, and appliances through wireless networks is indispensable for a smart Distribution Grid (SDG). However, wireless communications are usually more vulnerable to security attacks than wired ones. Developing appropriate wireless communication architecture and its security measures is extremely important for an SDG. Thus, these two problems are investigated in this paper. Firstly, a wireless communication architecture is proposed for an SDG based on wireless mesh networks (WMNs). The security framework under this communication architecture is then analyzed.More specifically, potential security attacks and possible counter-attack measures are studied. Within the security framework, a new intrusion detection and response scheme, called smart tracking firewall, is developed to meet the special requirements of SDG wireless communications. Performance results show that the smart tracking firewall can quickly detect and respond to security attacks and is thus suitable for real-time operation of an SDG
Youjie Ma - One of the best experts on this subject based on the ideXlab platform.
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An overview of self-healing control in smart Distribution Grid
2017 36th Chinese Control Conference (CCC), 2017Co-Authors: Xuesong Zhou, Youjie MaAbstract:Combining with the characteristics of smart Distribution Grid, this paper expounded the architecture, control strategy and key technology of self-healing control in smart Distribution Grid and proposed the “three-layer with seven-unit” architecture and the option method of control strategy. Combining with the characteristics of smart Distribution Grid containing distributed power, this paper introduced the key technology of self-healing control, so as to make up the defects of current self-healing control that the smart Grid features were not fully considered at present, which provided the theoretical basis for the construction of self-healing control.
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The research on smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Xuesong Zhou, Tianxiang Huang, Youjie MaAbstract:This paper introduces the concept of intelligent Distribution network, development of smart Grid technology with meaning and background as well as domestic and foreign research and development status of Smart Distribution Grid. It focuses on the advanced smart Distribution Grid Distribution automation, self-healing Distribution network control technology, AMI technology, the impact of distributed generation and micro-network after the access to the smart Distribution Grid, and construction of smart Distribution network problems to be solved.
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The review of smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Youjie Ma, Xin Tong, Xuesong ZhouAbstract:Smart Distribution Grid(SDG) is the development direction of modern power Grid with self-healing, reliable, high quality, high efficiency, compatibility, interactive features. It is the research focus of the smart Grid and ensuring reliable power and quality power supply. This paper covers the concept, significance, development situation at home and abroad. It also discovers many research problems when we pay more attention to this project. Finally, it introduces the trend and new technology in the development of smart Distribution Grid.
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Research Review on the Smart Distribution Grid
2016 IEEE International Conference on Mechatronics and Automation, 2016Co-Authors: Xuesong Zhou, Youjie MaAbstract:Smart Distribution Grid(SDG)is the focus of the future smart Grid construction, it will have a profound impact on the operation of power system protection and control. In this paper, the concept and characteristics of SDG are systematically introduced, then brief introduce SDG background, significance, as well as overseas and domestic research status. The key technologies of SDG are discussed, including the Distribution network self-healing control(SHC), Distribution fast simulation and modeling(DFSM), advanced Distribution automation(ADA), advanced metering infrastructure(AMI), active Distribution network (ADN), distributed generation(DG) and smart micro Grid technology. Combined with the current situation of smart Distribution Grid, it points the development tendency of SDG.
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An overview on smart Distribution Grid
2015 IEEE International Conference on Mechatronics and Automation (ICMA), 2015Co-Authors: Youjie Ma, Gui-dong Wang, Xuesong ZhouAbstract:To accommodate more DGs (Distribution generations) and improve power supply reliability, the concept of SDG (smart Distribution Grid) has been raised. This paper covers the concept of smart Distribution gird and briefly introduces the necessity to develop SDG from the aspects its social benefits, economic benefits and influence to the Distribution Grid. As the new forms of the SDG, micro Grid (MG) and active Distribution network (ADN) are analyzed and compared with each other. Finally, the some technologies and practical problems about SDG are discussed. By incorporating with new technologies like Big Data and Internet of Things, SDG is prone to obtain a new opportunity to develop
Watcharin Srirattanawichaikul - One of the best experts on this subject based on the ideXlab platform.
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IECON - Reactive Power Management of MV Distribution Grid with Inverter-based PV Distributed Generations using PSO Algorithm
IECON 2019 - 45th Annual Conference of the IEEE Industrial Electronics Society, 2019Co-Authors: Wittaya Moondee, Watcharin SrirattanawichaikulAbstract:This paper presents the reactive power management approach for a medium voltage (MV) Distribution Grid with inverter-based photovoltaic (PV) distributed generations using a particle swarm optimization (PSO) algorithm. The objective of this research is to control the reactive power flow to support the Distribution Grid and voltage regulation. The control algorithm is based on centralized reactive power management at the MV Distribution Grid for allocating the optimal reactive power of each PV distributed generation. The system case consists of a PV system connected to the simple radial feeders in the distributed Grid. Simulation studies of the proposed system are built through MATLAB and DIgSILENT PowerFactory software. The simulation results show that the proposed control algorithm is useful for mitigating voltage rise and reverse power flow in the MV Distribution Grid with the PV generation systems.
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Reactive Power Management of MV Distribution Grid with Inverter-based PV Distributed Generations using PSO Algorithm
IECON 2019 - 45th Annual Conference of the IEEE Industrial Electronics Society, 2019Co-Authors: Wittaya Moondee, Watcharin SrirattanawichaikulAbstract:This paper presents the reactive power management approach for a medium voltage (MV) Distribution Grid with inverter-based photovoltaic (PV) distributed generations using a particle swarm optimization (PSO) algorithm. The objective of this research is to control the reactive power flow to support the Distribution Grid and voltage regulation. The control algorithm is based on centralized reactive power management at the MV Distribution Grid for allocating the optimal reactive power of each PV distributed generation. The system case consists of a PV system connected to the simple radial feeders in the distributed Grid. Simulation studies of the proposed system are built through MATLAB and DIgSILENT PowerFactory software. The simulation results show that the proposed control algorithm is useful for mitigating voltage rise and reverse power flow in the MV Distribution Grid with the PV generation systems.
