pareto optimal design of decoupled sliding mode control based on a new multi-objective particle swarm optimization algorithm
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abstract
one of the most important applications of multi-objective optimization is adjusting parameters ofpractical engineering problems in order to produce a more desirable outcome. in this paper, the decoupled sliding mode control technique (dsmc) is employed to stabilize an inverted pendulum which is a classic example of inherently unstable systems. furthermore, a new multi-objective particle swarm optimization (mopso) algorithm is implemented for optimizing the dsmc parameters in order to decrease the normalized angle error of the pole and normalized distance error of the cart, simultaneously. the results of simulation are presented which consist of results with and without disturbances. the proposed pareto front for the dsmc problem demonstrates that the ingenious-mopso operates much better than other multi-objective evolutionary algorithms.
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Journal title:
amirkabir international journal of modeling, identification, simulation & controlPublisher: amirkabir university of technology
ISSN 2008-6067
volume 45
issue 2 2015
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