The Experts below are selected from a list of 360 Experts worldwide ranked by ideXlab platform
Gabor Karsai - One of the best experts on this subject based on the ideXlab platform.
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Resilient Information Architecture Platform for the Smart Grid: A Novel Open-Source Platform for Microgrid Control
IEEE Transactions on Industrial Electronics, 2020Co-Authors: Abhishek Dubey, Srdjan Lukic, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE Standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this article, we introduce an Open-Source Platform, resilient information architecture Platform for the smart grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
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resilient information architecture Platform for the smart grid riaps a novel Open Source Platform for microgrid control
IEEE Transactions on Industrial Electronics, 2019Co-Authors: Hao Tu, Yuhua Du, Srdjan Lukic, Hui Yu, Abhishek Dubey, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this paper, we introduce an Open-Source Platform, Resilient Information Architecture Platform for the Smart Grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
Abhishek Dubey - One of the best experts on this subject based on the ideXlab platform.
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Resilient Information Architecture Platform for the Smart Grid: A Novel Open-Source Platform for Microgrid Control
IEEE Transactions on Industrial Electronics, 2020Co-Authors: Abhishek Dubey, Srdjan Lukic, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE Standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this article, we introduce an Open-Source Platform, resilient information architecture Platform for the smart grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
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resilient information architecture Platform for the smart grid riaps a novel Open Source Platform for microgrid control
IEEE Transactions on Industrial Electronics, 2019Co-Authors: Hao Tu, Yuhua Du, Srdjan Lukic, Hui Yu, Abhishek Dubey, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this paper, we introduce an Open-Source Platform, Resilient Information Architecture Platform for the Smart Grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
Srdjan Lukic - One of the best experts on this subject based on the ideXlab platform.
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Resilient Information Architecture Platform for the Smart Grid: A Novel Open-Source Platform for Microgrid Control
IEEE Transactions on Industrial Electronics, 2020Co-Authors: Abhishek Dubey, Srdjan Lukic, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE Standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this article, we introduce an Open-Source Platform, resilient information architecture Platform for the smart grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
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resilient information architecture Platform for the smart grid riaps a novel Open Source Platform for microgrid control
IEEE Transactions on Industrial Electronics, 2019Co-Authors: Hao Tu, Yuhua Du, Srdjan Lukic, Hui Yu, Abhishek Dubey, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this paper, we introduce an Open-Source Platform, Resilient Information Architecture Platform for the Smart Grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
Hao Tu - One of the best experts on this subject based on the ideXlab platform.
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resilient information architecture Platform for the smart grid riaps a novel Open Source Platform for microgrid control
IEEE Transactions on Industrial Electronics, 2019Co-Authors: Hao Tu, Yuhua Du, Srdjan Lukic, Hui Yu, Abhishek Dubey, Gabor KarsaiAbstract:Microgrids are seen as an effective way to achieve reliable, resilient, and efficient operation of the power distribution system. Core functions of the microgrid control system are defined by the IEEE standard 2030.7; however, the algorithms that realize these functions are not standardized, and are a topic of research. Furthermore, the corresponding controller hardware, operating system, and communication system to implement these functions vary significantly from one implementation to the next. In this paper, we introduce an Open-Source Platform, Resilient Information Architecture Platform for the Smart Grid (RIAPS), ideally suited for implementing and deploying distributed microgrid control algorithms. RIAPS provides a design-time tool suite for development and deployment of distributed microgrid control algorithms. With support from a number of run-time Platform services, developed algorithms can be easily implemented and deployed into real microgrids. To demonstrate the unique features of RIAPS, we propose and implement a distributed microgrid secondary control algorithm capable of synchronized and proportional compensation of voltage unbalance using distributed generators. Test results show the effectiveness of the proposed control and the salient features of the RIAPS Platform.
Evangelos Katsamakas - One of the best experts on this subject based on the ideXlab platform.
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two sided competition of proprietary vs Open Source technology Platforms and the implications for the software industry
Management Science, 2006Co-Authors: Nicholas Economides, Evangelos KatsamakasAbstract:Technology Platforms, such as Microsoft Windows, are the hubs of technology industries. We develop a framework to characterize the optimal two-sided pricing strategy of a Platform firm; that is, the pricing strategy toward the direct users of the Platform as well as toward firms offering applications that are complementary to the Platform. We compare industry structures based on a proprietary Platform (such as Windows) with those based on an Open Source Platform (such as Linux), and analyze the structure of competition and industry implications in terms of pricing, sales, profitability, and social welfare. We find that, when the Platform is proprietary, the equilibrium prices for the Platform, the applications, and the Platform access fee for applications may be below marginal cost, and we characterize demand conditions that lead to this. The proprietary applications sector of an industry based on an Open Source Platform may be more profitable than the total profits of a proprietary Platform industry. When users have a strong preference for application variety, the total profits of the proprietary industry are larger than the total profits of an industry based on an Open Source Platform. The variety of applications is larger when the Platform is Open Source. When a system based on an Open Source Platform with an independent proprietary application competes with a proprietary system, the proprietary system is likely to dominate the Open Source Platform industry both in terms of market share and profitability. This may explain the dominance of Microsoft in the market for PC operating systems.
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two sided competition of proprietary vs Open Source technology Platforms and the implications for the software industry
Research Papers in Economics, 2005Co-Authors: Nicholas Economides, Evangelos KatsamakasAbstract:Technology Platforms, such as Microsoft Windows, are the hubs of technology industries. The strategic behavior of a firm controlling a Platform affects crucially industry evolution. We develop a framework to characterize the optimal two-sided pricing strategy of a Platform firm, that is, the pricing strategy towards the direct users of the Platform as well as towards firms offering components that are complementary to the Platform. We compare industry structures based on a proprietary Platform (such as Windows) with those based on an Open-Source Platform (such as, Linux) and analyze the structure of competition and industry implications in terms of pricing, sales, profitability, and social welfare. We find that, when the Platform is proprietary, the equilibrium prices for the Platform, the application(s), and the Platform access fee for applications can sometimes be below marginal cost, and we characterize demand conditions that lead to this. We find that the social welfare in the software industry may be higher when the Platform is Open Source rather than proprietary and the cost of adopting the Open Source Platform is small. The proprietary applications sector of an Open Source industry is more profitable than the total profits of a proprietary Platform industry when the demand of the proprietary Platform is not much stronger than the demand for the application(s) and the own-price effect of the Platform is strong (demand for the Platform is relatively elastic) while the own-price effect of the application is weak (demand for the application is relatively inelastic). When a system based on an Open Source Platform with an independent proprietary application competes with a proprietary Platform with an independent application, the Open Source system is typically dominant in terms of market share.
