The Experts below are selected from a list of 3042 Experts worldwide ranked by ideXlab platform
Qingsong Gong - One of the best experts on this subject based on the ideXlab platform.
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reliability evaluation of a zonal shipboard power system based on Minimal Cut Set
International Conference on Swarm Intelligence, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
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ICSI (2) - Reliability Evaluation of a Zonal Shipboard Power System Based on Minimal Cut Set
Lecture Notes in Computer Science, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
Genke Yang - One of the best experts on this subject based on the ideXlab platform.
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reliability evaluation of a zonal shipboard power system based on Minimal Cut Set
International Conference on Swarm Intelligence, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
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ICSI (2) - Reliability Evaluation of a Zonal Shipboard Power System Based on Minimal Cut Set
Lecture Notes in Computer Science, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
Jie Bai - One of the best experts on this subject based on the ideXlab platform.
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reliability evaluation of a zonal shipboard power system based on Minimal Cut Set
International Conference on Swarm Intelligence, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
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ICSI (2) - Reliability Evaluation of a Zonal Shipboard Power System Based on Minimal Cut Set
Lecture Notes in Computer Science, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
Changchun Pan - One of the best experts on this subject based on the ideXlab platform.
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reliability evaluation of a zonal shipboard power system based on Minimal Cut Set
International Conference on Swarm Intelligence, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
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ICSI (2) - Reliability Evaluation of a Zonal Shipboard Power System Based on Minimal Cut Set
Lecture Notes in Computer Science, 2016Co-Authors: Genke Yang, Jie Bai, Changchun Pan, Qingsong GongAbstract:A new method of shipboard power system (SPS) reliability evaluation using the Minimal Cut Set approach is developed. The method is dependent on the system network topology, as well as the component reliability parameters. Service interruption rate, indexed to quantify power system reliability, is calculated under normal condition and failure conditions. Under normal condition, the service interruption rate is used to indicate the reliability of each load zone. While under failure conditions where the interruption rate is calculated with conditional probability, the results are able to identify the importance of each element (cable) to specific load power supply.
Rui Kang - One of the best experts on this subject based on the ideXlab platform.
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Uncertainty theory as a basis for belief reliability
Information Sciences, 2018Co-Authors: Zhiguo Zeng, Rui KangAbstract:Belief reliability is a newly developed, model-based reliability metric which considers both what we know (expressed as reliability models) and what we don't know (expressed as epistemic uncertainty in the reliability models) about the reliability. In this paper, we show that due to the explicit representation of epistemic uncertainty, belief reliability should not be regarded as a probability measure; rather, it should be treated as an uncertain measure in uncertainty theory. A Minimal Cut Set-based method is developed to calculate the belief reliability of coherent systems. A numerical algorithm is, then, presented for belief reliability analysis based on fault tree models. The results of application show that the developed methods require less computations than the structure function-based method of classical reliability theory.
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A quantitative method to evaluate system resilience based on Minimal Cut-Set and sensitivity analysis
2016 Prognostics and System Health Management Conference (PHM-Chengdu), 2016Co-Authors: Chenxuan Yang, Yanbo Zhang, Rui Kang, Yi YangAbstract:This paper proposes a quantitative method to evaluate system resilience. By dividing objects into system level and component level, we present two system resilience indexes (ER and p) based on Minimal Cut-Set and its calculation method under continuous disruptive events, considering the influence of component and system structure on system resilience. In addition, the sensitivities of components to the two indexes are also analyzed using Morris-Method, which provides reference for the design and improvement of system resilience.
