Proceedings of the IEEE International Conference on Industrial Technology (ICIT'96)
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The success of a neurofuzzy control system solving any given problem critically depends on the architecture of the network. Various attempts have been made in optimising its structure using genetic algorithm automated designs. In a regular genetic algorithm, however, a difficulty exists which lies in the encoding of the problem by highly fit gene combinations of a fixed-length. For the structure of the controller to be coded, the required linkage format is not exactly known and the chance of obtaining such a linkage in a random generation of coded chromosomes is slim. This paper presents a new approach to structurally optimised designs of neurofuzzy controllers. Here, we use messy genetic algorithms, whose main characteristic is the variable length of chromosomes, to obtain structurally optimised FLC. Structural optimisation is regarded important before neural network based local learning is switched into. The example of a cart-pole balancing problem demonstrates that such an optimal d...