Robustness analysis of fractional order PID for an electrical aerial platform
This work was performed to objectively measure and assess the robustness and tracking performance of fractional order of proportional, integral and derivative (FOPID) controller as compared to the conventional PID control. In satellite research and development, the satellite undergoes numerous tes...
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Korean Society of Mechanical Engineers
2018
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my.iium.irep.677092019-07-15T01:56:22Z http://irep.iium.edu.my/67709/ Robustness analysis of fractional order PID for an electrical aerial platform Norsahperi, Nor Mohd Haziq Ahmad, Salmiah Toha @ Tohara, Siti Fauziah Mahmood, Iskandar Al-Thani Mohamad Hanif, Noor Hazrin Hany TJ212 Control engineering This work was performed to objectively measure and assess the robustness and tracking performance of fractional order of proportional, integral and derivative (FOPID) controller as compared to the conventional PID control. In satellite research and development, the satellite undergoes numerous tests such as thermal, acoustic and vibration tests in the cleanroom environment. However, due to space limitation in the cleanroom and the sensitive components of the satellite, it requires vibration-free, smooth and precise motion when handling the satellite. In addition, measurement interference might occur due to cable routing during procedures or tasks performed by an operator. Unlike the previous work, the robustness analysis of FOPID controller was not systematically conducted. In this paper, the analysis took into account the actuator dynamics, and various tests were considered to measure the robustness of FOPID controller. The designed FOPID controller was implemented on the scissor-type lifting mechanism of motorized adjustable vertical platform (MAVeP) model, and its performance was compared with the traditional PID controller. A comprehensive verification using MATLAB and Solidworks was carried out to generate the model and conduct the analysis. Both controllers were initially tuned using Nichol-Ziegler technique, and the additional FOPID controller parameters was tuned using the Astrom-Hagglund method. From the simulation work, it was found that the FOPID controller’s tracking error was reduced between 10 % - 50 % for the disturbance rejection tests and reference to disturbance ratio (RDR) spectrum was higher as compared to PID. The analysis in this paper was predicted to be the main driver to implement FOPID controller in the complex system in the industry, especially for sensitive material handling and transportation such as satellite. Korean Society of Mechanical Engineers 2018-11-01 Article PeerReviewed application/pdf en http://irep.iium.edu.my/67709/1/40-18-00454fso-%EC%88%98%EC%8B%9D-2003_published.pdf application/pdf en http://irep.iium.edu.my/67709/7/67709_Robustness%20analysis%20of%20fractional%20order%20PID_scopus.pdf application/pdf en http://irep.iium.edu.my/67709/13/67709%20Robustness%20analysis%20of%20fractional%20order%20PID%20WOS.pdf Norsahperi, Nor Mohd Haziq and Ahmad, Salmiah and Toha @ Tohara, Siti Fauziah and Mahmood, Iskandar Al-Thani and Mohamad Hanif, Noor Hazrin Hany (2018) Robustness analysis of fractional order PID for an electrical aerial platform. Journal of Mechanical Science and Technology, 32 (11). pp. 5411-5419. ISSN 1738-494X https://link.springer.com/article/10.1007%2Fs12206-018-1039-2 10.1007/s12206-018-1039-2 |
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TJ212 Control engineering Norsahperi, Nor Mohd Haziq Ahmad, Salmiah Toha @ Tohara, Siti Fauziah Mahmood, Iskandar Al-Thani Mohamad Hanif, Noor Hazrin Hany Robustness analysis of fractional order PID for an electrical aerial platform |
| description |
This work was performed to objectively measure and assess the robustness and tracking performance of fractional order of proportional,
integral and derivative (FOPID) controller as compared to the conventional PID control. In satellite research and development, the
satellite undergoes numerous tests such as thermal, acoustic and vibration tests in the cleanroom environment. However, due to space
limitation in the cleanroom and the sensitive components of the satellite, it requires vibration-free, smooth and precise motion when handling
the satellite. In addition, measurement interference might occur due to cable routing during procedures or tasks performed by an
operator. Unlike the previous work, the robustness analysis of FOPID controller was not systematically conducted. In this paper, the
analysis took into account the actuator dynamics, and various tests were considered to measure the robustness of FOPID controller. The
designed FOPID controller was implemented on the scissor-type lifting mechanism of motorized adjustable vertical platform (MAVeP)
model, and its performance was compared with the traditional PID controller. A comprehensive verification using MATLAB and Solidworks
was carried out to generate the model and conduct the analysis. Both controllers were initially tuned using Nichol-Ziegler technique,
and the additional FOPID controller parameters was tuned using the Astrom-Hagglund method. From the simulation work, it was
found that the FOPID controller’s tracking error was reduced between 10 % - 50 % for the disturbance rejection tests and reference to
disturbance ratio (RDR) spectrum was higher as compared to PID. The analysis in this paper was predicted to be the main driver to
implement FOPID controller in the complex system in the industry, especially for sensitive material handling and transportation such as
satellite. |
| format |
Article |
| author |
Norsahperi, Nor Mohd Haziq Ahmad, Salmiah Toha @ Tohara, Siti Fauziah Mahmood, Iskandar Al-Thani Mohamad Hanif, Noor Hazrin Hany |
| author_facet |
Norsahperi, Nor Mohd Haziq Ahmad, Salmiah Toha @ Tohara, Siti Fauziah Mahmood, Iskandar Al-Thani Mohamad Hanif, Noor Hazrin Hany |
| author_sort |
Norsahperi, Nor Mohd Haziq |
| title |
Robustness analysis of fractional order PID for an electrical aerial platform |
| title_short |
Robustness analysis of fractional order PID for an electrical aerial platform |
| title_full |
Robustness analysis of fractional order PID for an electrical aerial platform |
| title_fullStr |
Robustness analysis of fractional order PID for an electrical aerial platform |
| title_full_unstemmed |
Robustness analysis of fractional order PID for an electrical aerial platform |
| title_sort |
robustness analysis of fractional order pid for an electrical aerial platform |
| publisher |
Korean Society of Mechanical Engineers |
| publishDate |
2018 |
| url |
http://irep.iium.edu.my/67709/1/40-18-00454fso-%EC%88%98%EC%8B%9D-2003_published.pdf http://irep.iium.edu.my/67709/7/67709_Robustness%20analysis%20of%20fractional%20order%20PID_scopus.pdf http://irep.iium.edu.my/67709/13/67709%20Robustness%20analysis%20of%20fractional%20order%20PID%20WOS.pdf http://irep.iium.edu.my/67709/ https://link.springer.com/article/10.1007%2Fs12206-018-1039-2 |
| _version_ |
1643619770572996608 |
| score |
13.2014675 |