neuro-optimizer: a new artificial intelligent optimization tool and its application for robot optimal controller design

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abstract

the main objective of this paper is to introduce a new intelligent optimization technique that uses a predictioncorrectionstrategy supported by a recurrent neural network for finding a near optimal solution of a givenobjective function. recently there have been attempts for using artificial neural networks (anns) in optimizationproblems and some types of anns such as hopfield network and boltzmann machine have been applied incombinatorial optimization problems. however, anns cannot optimize continuous functions and discreteproblems should be mapped into the neural networks architecture. to overcome these shortages, we introduce anew procedure for stochastic optimization by a recurrent artificial neural network. the introduced neurooptimizer(no) starts with an initial solution and adjusts its weights by a new heuristic and unsupervised rule tocompute the best solution. therefore, in each iteration, no generates a new solution to reach the optimal ornear optimal solutions. for comparison and detailed description, the introduced no is compared to geneticalgorithm and particle swarm optimization methods. then, the proposed method is used to design the optimalcontroller parameters for a five bar linkage manipulator robot. the important characteristics of no are:convergence to optimal or near optimal solutions, escaping from local minima, less function evaluation, highconvergence rate and easy to implement.

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Journal title:
journal of artificial intelligence in electrical engineering

جلد ۱، شماره ۲، صفحات ۵۴-۶۹

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