Abstract :
An approach to fuzzy reasoning is proposed, that is built on classic approximation techniques. More precisely, fuzzy relations are approximated by B-spline surfaces. The main advantages are: a well founded approximation theory, great approximation capabilities, and the possibility to interpret the B-spline basis as fuzzy rules. In addition, natural representations of positive rules (support distributions, Mamdani-inference) and negative rules (possibility distributions, Godel-inference) are presented. In this context, a very fast inference mechanism for multi-stage reasoning is proposed. In the best case, the computation costs are the square number of rules. Altogether the new method provides a memory saving representation of fuzzy rule bases, a fast inference mechanism and high approximation power. These features recommend the method not only for control purposes but also in more general settings of approximate reasoning
Keywords :
approximation theory; fuzzy control; fuzzy logic; inference mechanisms; knowledge based systems; splines (mathematics); uncertainty handling; B-spline; approximate reasoning; approximation theory; fuzzy control; fuzzy reasoning; fuzzy rule extraction; inference mechanism; multiple stage reasoning; Computational efficiency; Control systems; Fuzzy control; Fuzzy reasoning; Fuzzy systems; Inference mechanisms; Logic; Spline; Temperature control; Valves;
Conference_Titel :
Fuzzy Systems Proceedings, 1998. IEEE World Congress on Computational Intelligence., The 1998 IEEE International Conference on
