Tuning of FOPID Controller for Robotic Manipulator Using Genetic and Multiple-Objective Genetic Algorithms

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Abstract

This study compares the performances of the GA-FOPID and MOGA-FOPID controllers, which are fractional-order proportional–integral–derivative (FOPID) controllers tuned using genetic algorithm and multiple-objective genetic algorithm for position tracking accuracy of robotic manipulator, respectively. The tuning process of six control gains in the three FOPID controllers is technically challenging to achieve high position accuracy of robotic manipulator. This study is performed to objectively assess the performances of genetic algorithm and multiple-objective genetic algorithm in tuning the six control gains in the FOPID controller. From the simulation study, it is interesting to note that the GA-FOPID and MOGA-FOPID controllers produce approximately 8.2990 and 14.6307% reductions of the mean square error in the angular position accuracy response of robotic manipulator as compared with the GA-PID controller. It is envisaged that the GA-FOPID and MOGA-FOPID controllers can be useful in designing effective position tracking accuracy of robotic manipulators.

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Hambali, N. F., Norsahperi, N. M. H., Hisban, M. A. M., Hassan, M. K., Hasan, W. Z. W., Ismail, L. I., & Ramli, H. R. (2024). Tuning of FOPID Controller for Robotic Manipulator Using Genetic and Multiple-Objective Genetic Algorithms. In Lecture Notes in Networks and Systems (Vol. 850, pp. 557–574). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-99-8819-8_47

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