Optimizing neural networks for pneumatic muscle actuator system identification: a cooperative coevolutionary approach

Nguyen Ngoc Son; Hoang Duc Quy; Tran Minh Chinh; Luu The Vinh

Optimizing neural networks for pneumatic muscle actuator system identification: a cooperative coevolutionary approach

Authors

Nguyen Ngoc Son Industrial University of Ho Chi Minh City
Hoang Duc Quy Industrial University of Ho Chi Minh City
Tran Minh Chinh Industrial University of Ho Chi Minh City
Luu The Vinh Industrial University of Ho Chi Minh City

Keywords:

Coevolutionary algorithm, Optimized Neural network, Nonlinear system identification, Jaya algorithm, Differential evolution

Abstract

This paper presents a cooperative coevolutionary optimization algorithm to overcome issues in gradient descent-based neural network, such as getting stuck in local minimum and slow convergence. The proposed method combines JAYA and a modified differential evolution (DE) techniques to optimize neural network weights. It works by splitting the population into two subpopulations, each focusing on optimizing different aspects of the network weights. The method's effectiveness is tested on two benchmark nonlinear dynamical systems and compared with existing methods. Results show that the neural network optimized by this approach achieves high accuracy and robustness. Finally, the practical applicability of this method is demonstrated by modeling the pneumatic muscle actuator (PMA) system using experimental data, where the PMA system is made up of Festo's MAS-10 N220 pneumatic artificial muscles and controlled with a DAQ NI 6221 card.

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Published

06-10-2025

How to Cite

Son, N. N., Quy, H. D., Chinh, T. M., & Vinh, L. T. (2025). Optimizing neural networks for pneumatic muscle actuator system identification: a cooperative coevolutionary approach. Journal of Measurement, Control, and Automation, 29(3), 16–22. Retrieved from https://mca-journal.org/index.php/mca/article/view/334