Artículo
A Fault Analysis Method for Three-Phase Induction Motors Based on Spiking Neural P Systems
Autor/es | Huang, Zhu
Wang, Tao Liu, Wei Valencia Cabrera, Luis Pérez Jiménez, Mario de Jesús Li, Pengpeng |
Departamento | Universidad de Sevilla. Departamento de Ciencias de la Computación e Inteligencia Artificial |
Fecha de publicación | 2021 |
Fecha de depósito | 2021-04-22 |
Publicado en |
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Resumen | The fault prediction and abductive fault diagnosis of three-phase induction motors are of great importance for improving their working
safety, reliability, and economy; however, it is difficult to succeed in solving these ... The fault prediction and abductive fault diagnosis of three-phase induction motors are of great importance for improving their working safety, reliability, and economy; however, it is difficult to succeed in solving these issues. This paper proposes a fault analysis method of motors based on modified fuzzy reasoning spiking neural P systems with real numbers (rMFRSNPSs) for fault prediction and abductive fault diagnosis. To achieve this goal, fault fuzzy production rules of three-phase induction motors are first proposed. Then, the rMFRSNPS is presented to model the rules, which provides an intuitive way for modelling the motors. Moreover, to realize the parallel data computing and information reasoning in the fault prediction and diagnosis process, three reasoning algorithms for the rMFRSNPS are proposed: the pulse value reasoning algorithm, the forward fault prediction reasoning algorithm, and the backward abductive fault diagnosis reasoning algorithm. Finally, some case studies are given, in order to verify the feasibility and effectiveness of the proposed method. |
Agencias financiadoras | Ministerio de Economia, Industria y Competitividad (MINECO). España |
Identificador del proyecto | TIN2017-89842-P (MABICAP) |
Cita | Huang, Z., Wang, T., Liu, W., Valencia Cabrera, L., Pérez Jiménez, M.d.J. y Li, P. (2021). A Fault Analysis Method for Three-Phase Induction Motors Based on Spiking Neural P Systems. Complexity, 2021 (Article ID 2087027) |
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