Fuzzy reasoning spiking neural P system for fault diagnosis
Copyright policy )Fuzzy reasoning spiking neural P system for fault diagnosis
Spiking neural P systems (SN P systems) have been well established as a novel class of distributed parallel computing models. Some features that SN P systems possess are attractive to fault diagnosis. However, handling fuzzy diagnosis knowledge and reasoning is required for many fault diagnosis applications. The lack of ability is a major problem of existing SN P systems when applying them to the fault diagnosis domain. Thus, we extend SN P systems by introducing some new ingredients (such as three types of neurons, fuzzy logic and new firing mechanism) and propose the fuzzy reasoning spiking neural P systems (FRSN P systems). The FRSN P systems are particularly suitable to model fuzzy production rules in a fuzzy diagnosis knowledge base and their reasoning process. Moreover, a parallel fuzzy reasoning algorithm based on FRSN P systems is developed according to neuron’s dynamic firing mechanism. Besides, a practical example of transformer fault diagnosis is used to demonstrate the feasibility and effectiveness of the proposed FRSN P systems in fault diagnosis problem.
Ministerio de Ciencia e Innovación TIN2009–13192
Junta de Andalucía P08-TIC-04200
- University of Seville Spain
- Universidad de Sevilla (US) Spain
- Xihua University China (People's Republic of)
fuzzy knowledge representation, P systems, spiking neural P systems, Spiking Neural P systems, Models of computation (Turing machines, etc.), fault diagnosis, fuzzy reasoning, Reasoning under uncertainty in the context of artificial intelligence, Theory of languages and software systems (knowledge-based systems, expert systems, etc.) for artificial intelligence, Reliability, availability, maintenance, inspection in operations research, Knowledge representation, Fuzzy knowledge representation, Fuzzy reasoning, Production models, Fault diagnosis
fuzzy knowledge representation, P systems, spiking neural P systems, Spiking Neural P systems, Models of computation (Turing machines, etc.), fault diagnosis, fuzzy reasoning, Reasoning under uncertainty in the context of artificial intelligence, Theory of languages and software systems (knowledge-based systems, expert systems, etc.) for artificial intelligence, Reliability, availability, maintenance, inspection in operations research, Knowledge representation, Fuzzy knowledge representation, Fuzzy reasoning, Production models, Fault diagnosis
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