Abstract
Generalized Modus Ponens (GMP) type fuzzy reasoning is used for mobile robot navigation in this paper. However, GMP type reasoning suffers from different drawbacks that make it difficult to be used in real time applications. The objectives of this paper are to eliminate some of the drawbacks of GMP type fuzzy reasoning to make it favorable in control applications, and also demonstrate the effectiveness of the suggested improvements on a real-time application. The first drawback of GMP is its high computational requirements and the second problem is the lack of a systematic operator selection procedure. There are also other issues to be dealt with when the conclusions obtained from GMP are to be combined and defuzzified in order to be used in the control of an electro mechanical device. These drawbacks are tackled in appropriate ways and it is experimentally shown that GMP can be satisfactorily used for mobile robot navigation.
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