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Neurofuzzy design and model construction of nonlinear dynamical processes from data

Neurofuzzy design and model construction of nonlinear dynamical processes from data

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A common problem in many data based modelling algorithms such as associative memory networks is the problem of the curse of dimensionality. In this paper, a new two-stage neurofuzzy system design and construction algorithm (NeuDeC) for nonlinear dynamical processes is introduced to effectively tackle this problem. A new simple preprocessing method is initially derived and applied to reduce the rule base, followed by a fine model detection process based on the reduced rule set by using forward orthogonal least squares model structure detection. In both stages, new A-optimality experimental design-based criteria we used. In the preprocessing stage, a lower bound of the A-optimality design criterion is derived and applied as a subset selection metric, but in the later stage, the A-optimality design criterion is incorporated into a new composite cost function that minimises model prediction error as well as penalises the model parameter variance. The utilisation of NeuDeC leads to unbiased model parameters with low parameter variance and the additional benefit of a parsimonious model structure. Numerical examples are included to demonstrate the effectiveness of this new modelling approach for high dimensional inputs.

Inspec keywords: nonlinear dynamical systems; fuzzy neural nets

Other keywords: data based modelling; neural networks; nonlinear dynamical processes; neurofuzzy system design; A-optimality design; fuzzy rule base; associative memory networks; fuzzy membership

Subjects: Neural nets (theory); Nonlinear control systems

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