The fuzzy PD control for combined energy and attitude control system
Purpose: The satellite pointing accuracy plays a crucial role in ensuring a successful satellite mission itself. Therefore, this paper aims to enhance the attitude pointing accuracy of the combined energy and attitude control system (CEACS) in a satellite in the presence of external disturbance torq...
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my.upm.eprints.1035672023-05-22T02:46:37Z http://psasir.upm.edu.my/id/eprint/103567/ The fuzzy PD control for combined energy and attitude control system Aslam, Sohaib Yew, Chung Chak Jaffery, Mujtaba Hussain Varatharajoo, Renuganth Purpose: The satellite pointing accuracy plays a crucial role in ensuring a successful satellite mission itself. Therefore, this paper aims to enhance the attitude pointing accuracy of the combined energy and attitude control system (CEACS) in a satellite in the presence of external disturbance torques through a robust controller, which can produce high pointing accuracies with smaller control torques. Design/methodology/approach: To improve the CEACS attitude pointing accuracy, a maiden fuzzy proportional derivative (PD)-based CEACS architecture is proposed. The mathematical models along with its numerical treatments of the fuzzy PD-based CEACS attitude control architecture are presented. In addition, a comparison between the PD and fuzzy PD controllers in terms of the CEACS pointing accuracies and control torques is provided. Findings: Numerical results show that the fuzzy PD controller produces a considerable CEACS pointing accuracy improvement for a lower control torque compartment. Practical implications: CEACS has gained a renew interest because of significant increase in the projected onboard power requirements for future space missions. Therefore, it is of paramount importance to improve the CEACS pointing accuracy itself with a minimum control torque compartment. In fact, this proposed fuzzy PD controller is shown to be a potential CEACS attitude controller. Originality/value: The fuzzy PD-based CEACS architecture not only provides a better attitude pointing accuracy but also ensures a lower control torque compartment, which corresponds to a lower onboard power consumption. Emerald 2022 Article PeerReviewed Aslam, Sohaib and Yew, Chung Chak and Jaffery, Mujtaba Hussain and Varatharajoo, Renuganth (2022) The fuzzy PD control for combined energy and attitude control system. Aircraft Engineering and Aerospace Technology, 94 (10). 1806 - 1824. ISSN 0002-2667 https://www.emerald.com/insight/content/doi/10.1108/AEAT-05-2021-0144/full/html 10.1108/AEAT-05-2021-0144 |
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Purpose: The satellite pointing accuracy plays a crucial role in ensuring a successful satellite mission itself. Therefore, this paper aims to enhance the attitude pointing accuracy of the combined energy and attitude control system (CEACS) in a satellite in the presence of external disturbance torques through a robust controller, which can produce high pointing accuracies with smaller control torques. Design/methodology/approach: To improve the CEACS attitude pointing accuracy, a maiden fuzzy proportional derivative (PD)-based CEACS architecture is proposed. The mathematical models along with its numerical treatments of the fuzzy PD-based CEACS attitude control architecture are presented. In addition, a comparison between the PD and fuzzy PD controllers in terms of the CEACS pointing accuracies and control torques is provided. Findings: Numerical results show that the fuzzy PD controller produces a considerable CEACS pointing accuracy improvement for a lower control torque compartment. Practical implications: CEACS has gained a renew interest because of significant increase in the projected onboard power requirements for future space missions. Therefore, it is of paramount importance to improve the CEACS pointing accuracy itself with a minimum control torque compartment. In fact, this proposed fuzzy PD controller is shown to be a potential CEACS attitude controller. Originality/value: The fuzzy PD-based CEACS architecture not only provides a better attitude pointing accuracy but also ensures a lower control torque compartment, which corresponds to a lower onboard power consumption. |
| format |
Article |
| author |
Aslam, Sohaib Yew, Chung Chak Jaffery, Mujtaba Hussain Varatharajoo, Renuganth |
| spellingShingle |
Aslam, Sohaib Yew, Chung Chak Jaffery, Mujtaba Hussain Varatharajoo, Renuganth The fuzzy PD control for combined energy and attitude control system |
| author_facet |
Aslam, Sohaib Yew, Chung Chak Jaffery, Mujtaba Hussain Varatharajoo, Renuganth |
| author_sort |
Aslam, Sohaib |
| title |
The fuzzy PD control for combined energy and attitude control system |
| title_short |
The fuzzy PD control for combined energy and attitude control system |
| title_full |
The fuzzy PD control for combined energy and attitude control system |
| title_fullStr |
The fuzzy PD control for combined energy and attitude control system |
| title_full_unstemmed |
The fuzzy PD control for combined energy and attitude control system |
| title_sort |
fuzzy pd control for combined energy and attitude control system |
| publisher |
Emerald |
| publishDate |
2022 |
| url |
http://psasir.upm.edu.my/id/eprint/103567/ https://www.emerald.com/insight/content/doi/10.1108/AEAT-05-2021-0144/full/html |
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