Improved third order PID sliding mode controller for electrohydraulic actuator tracking control
An electrohydraulic actuator (EHA) system is a combination of hydraulic systems and electrical systems which can produce a rapid response, high power-to-weight ratio, and large stiffness. Nevertheless, the EHA system has nonlinear behaviors and modeling uncertainties such as frictions, internal and...
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Department of Electrical Engineering, Universitas Muhammadiyah Yogyakarta
2022
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my.utem.eprints.266182023-04-12T15:28:05Z http://eprints.utem.edu.my/id/eprint/26618/ Improved third order PID sliding mode controller for electrohydraulic actuator tracking control Ghazali, Rozaimi Ghani, Muhamad Fadli Jaafar, Hazriq Izzuan Chong, Chee Soon Md Sam, Yahaya Has, Zulfatman An electrohydraulic actuator (EHA) system is a combination of hydraulic systems and electrical systems which can produce a rapid response, high power-to-weight ratio, and large stiffness. Nevertheless, the EHA system has nonlinear behaviors and modeling uncertainties such as frictions, internal and external leakages, and parametric uncertainties, which lead to significant challenges in controller design for trajectory tracking. Therefore, this paper presents the design of an intelligent adaptive sliding mode proportional integral and derivative (SMCPID) controller, which is the main contribution toward the development of effective control on a third-order model of a double-acting EHA system for trajectory tracking, which significantly reduces chattering under noise disturbance. The sliding mode controller (SMC) is created by utilizing the exponential rule and the Lyapunov theorem to ensure closed-loop stability. The chattering in the SMC controller has been significantly decreased by substituting the modified sigmoid function for the signum function. Particle swarm optimization (PSO) was used to lower the total of absolute errors to adjust the controller. In order to demonstrate the efficacy of the SMCPID controller, the results for trajectory tracking and noise disturbance rejection were compared to those obtained using the proportional integral and derivative (PID), the proportional and derivative (PD), and the sliding mode proportional and derivative (SMCPD) controllers, respectively. In conclusion, the results of the extensive research given have indicated that the SMCPID controller outperforms the PD, PID, and SMCPD controllers in terms of overall performance. Department of Electrical Engineering, Universitas Muhammadiyah Yogyakarta 2022-03 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/26618/2/IMPROVED%20THIRD%20ORDER%20PID%20SLIDING%20MODE%20CONTROLLER%20FOR%20ELECTROHYDRAULIC%20ACTUATOR%20TRACKING%20CONTROL.PDF Ghazali, Rozaimi and Ghani, Muhamad Fadli and Jaafar, Hazriq Izzuan and Chong, Chee Soon and Md Sam, Yahaya and Has, Zulfatman (2022) Improved third order PID sliding mode controller for electrohydraulic actuator tracking control. Journal of Robotics and Control (JRC), 3 (2). pp. 219-226. ISSN 2715-5056 https://journal.umy.ac.id/index.php/jrc/article/view/14236/7280 10.18196/jrc.v3i2.14236 |
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An electrohydraulic actuator (EHA) system is a combination of hydraulic systems and electrical systems which can produce a rapid response, high power-to-weight ratio, and large stiffness. Nevertheless, the EHA system has nonlinear behaviors and modeling uncertainties such as frictions, internal and external leakages, and parametric uncertainties, which lead to significant challenges in controller design for trajectory tracking. Therefore, this paper presents the design of an intelligent adaptive sliding mode proportional integral and derivative (SMCPID) controller, which is the main contribution toward the development of effective control on a third-order model of a double-acting EHA system for trajectory tracking, which significantly reduces chattering under noise disturbance. The sliding mode controller (SMC) is created by utilizing the exponential rule and the Lyapunov theorem to ensure closed-loop stability. The chattering in the SMC controller has been significantly decreased by substituting the modified sigmoid function for the signum function. Particle swarm optimization (PSO) was used to lower the total of absolute errors to adjust the controller. In order to demonstrate the efficacy of the SMCPID controller, the results for trajectory tracking and noise disturbance rejection were compared to those obtained using the proportional integral and derivative (PID), the proportional and derivative (PD), and the sliding mode proportional and derivative (SMCPD) controllers, respectively. In conclusion, the results of the extensive research given have indicated that the SMCPID controller outperforms the PD, PID, and SMCPD controllers in terms of overall performance. |
| format |
Article |
| author |
Ghazali, Rozaimi Ghani, Muhamad Fadli Jaafar, Hazriq Izzuan Chong, Chee Soon Md Sam, Yahaya Has, Zulfatman |
| spellingShingle |
Ghazali, Rozaimi Ghani, Muhamad Fadli Jaafar, Hazriq Izzuan Chong, Chee Soon Md Sam, Yahaya Has, Zulfatman Improved third order PID sliding mode controller for electrohydraulic actuator tracking control |
| author_facet |
Ghazali, Rozaimi Ghani, Muhamad Fadli Jaafar, Hazriq Izzuan Chong, Chee Soon Md Sam, Yahaya Has, Zulfatman |
| author_sort |
Ghazali, Rozaimi |
| title |
Improved third order PID sliding mode controller for electrohydraulic actuator tracking control |
| title_short |
Improved third order PID sliding mode controller for electrohydraulic actuator tracking control |
| title_full |
Improved third order PID sliding mode controller for electrohydraulic actuator tracking control |
| title_fullStr |
Improved third order PID sliding mode controller for electrohydraulic actuator tracking control |
| title_full_unstemmed |
Improved third order PID sliding mode controller for electrohydraulic actuator tracking control |
| title_sort |
improved third order pid sliding mode controller for electrohydraulic actuator tracking control |
| publisher |
Department of Electrical Engineering, Universitas Muhammadiyah Yogyakarta |
| publishDate |
2022 |
| url |
http://eprints.utem.edu.my/id/eprint/26618/2/IMPROVED%20THIRD%20ORDER%20PID%20SLIDING%20MODE%20CONTROLLER%20FOR%20ELECTROHYDRAULIC%20ACTUATOR%20TRACKING%20CONTROL.PDF http://eprints.utem.edu.my/id/eprint/26618/ https://journal.umy.ac.id/index.php/jrc/article/view/14236/7280 |
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13.160551 |