Nonlinear control of Hexarotor system using Proportional Derivative Sliding Mode Controller (PD-SMC)
An Unmanned Aerial Vehicle (UAV) or Uncrewed Aerial Vehicle is a multirotor type of vehicle and is commonly known as a drone. Hexarotor type of UAV has six rotors and has several characteristics that give more operational advantages over lower rotors of UAV. This paper presents the mathematical mo...
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my.iium.irep.1012152022-11-24T05:01:20Z http://irep.iium.edu.my/101215/ Nonlinear control of Hexarotor system using Proportional Derivative Sliding Mode Controller (PD-SMC) Abdul Azis, Fadilah Mohamad Hanif, Noor Hazrin Hany Rajasuriyan, Shankarao Mohd Aras, Mohd Shahrieel Md Ghazaly, Mariam TJ212 Control engineering An Unmanned Aerial Vehicle (UAV) or Uncrewed Aerial Vehicle is a multirotor type of vehicle and is commonly known as a drone. Hexarotor type of UAV has six rotors and has several characteristics that give more operational advantages over lower rotors of UAV. This paper presents the mathematical modeling of the hexarotor system with the Proportional Derivative Sliding Mode Controller (PD-SMC) approach as the nonlinear controller. The mathematical model of the UAV’s body dynamics was modeled using the Newtonian method. This research implemented the SMC controller to the hexarotor system and coupled it with PD as the sliding surface for the attitudes controller. For comparison, Proportional Integral Derivative (PID), PD, and Linear Quadratic Regulator (LQR) controllers were also applied to the hexarotor system. Hence, better attitudes controller performances were achieved using the coupled controller, which is the PD-SMC controller. The performances were analyzed in percentage overshoot, settling time, rise time, and steady-state error. Matlab Simulink simulation was used throughout the research to measure the performances of hexarotor. As a result, for roll angle, rise time was 0.06 s, settling time was 0.50 s, percentage of overshoot was 0.0002%, and the steady-state error was 0.0001. In conclusion, PD-SMC shows the best stabilization controller for the hexarotor system with almost zero overshoot, zero steady-state errors, and faster settling times, and faster rising time. Springer 2022-01 Conference or Workshop Item PeerReviewed application/pdf en http://irep.iium.edu.my/101215/1/101215_Nonlinear%20control%20of%20Hexarotor%20system.pdf application/pdf en http://irep.iium.edu.my/101215/2/101215_Nonlinear%20control%20of%20Hexarotor%20system_SCOPUS.pdf Abdul Azis, Fadilah and Mohamad Hanif, Noor Hazrin Hany and Rajasuriyan, Shankarao and Mohd Aras, Mohd Shahrieel and Md Ghazaly, Mariam (2022) Nonlinear control of Hexarotor system using Proportional Derivative Sliding Mode Controller (PD-SMC). In: Symposium on Intelligent Manufacturing and Mechatronics, 8 November 2021, Virtual. https://link.springer.com/chapter/10.1007/978-981-16-8954-3_34 10.1007/978-981-16-8954-3 |
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TJ212 Control engineering Abdul Azis, Fadilah Mohamad Hanif, Noor Hazrin Hany Rajasuriyan, Shankarao Mohd Aras, Mohd Shahrieel Md Ghazaly, Mariam Nonlinear control of Hexarotor system using Proportional Derivative Sliding Mode Controller (PD-SMC) |
| description |
An Unmanned Aerial Vehicle (UAV) or Uncrewed Aerial Vehicle is a
multirotor type of vehicle and is commonly known as a drone. Hexarotor type of
UAV has six rotors and has several characteristics that give more operational advantages over lower rotors of UAV. This paper presents the mathematical modeling
of the hexarotor system with the Proportional Derivative Sliding Mode Controller
(PD-SMC) approach as the nonlinear controller. The mathematical model of the
UAV’s body dynamics was modeled using the Newtonian method. This research
implemented the SMC controller to the hexarotor system and coupled it with PD
as the sliding surface for the attitudes controller. For comparison, Proportional
Integral Derivative (PID), PD, and Linear Quadratic Regulator (LQR) controllers
were also applied to the hexarotor system. Hence, better attitudes controller performances were achieved using the coupled controller, which is the PD-SMC controller. The performances were analyzed in percentage overshoot, settling time,
rise time, and steady-state error. Matlab Simulink simulation was used throughout the research to measure the performances of hexarotor. As a result, for roll
angle, rise time was 0.06 s, settling time was 0.50 s, percentage of overshoot was
0.0002%, and the steady-state error was 0.0001. In conclusion, PD-SMC shows the
best stabilization controller for the hexarotor system with almost zero overshoot,
zero steady-state errors, and faster settling times, and faster rising time. |
| format |
Conference or Workshop Item |
| author |
Abdul Azis, Fadilah Mohamad Hanif, Noor Hazrin Hany Rajasuriyan, Shankarao Mohd Aras, Mohd Shahrieel Md Ghazaly, Mariam |
| author_facet |
Abdul Azis, Fadilah Mohamad Hanif, Noor Hazrin Hany Rajasuriyan, Shankarao Mohd Aras, Mohd Shahrieel Md Ghazaly, Mariam |
| author_sort |
Abdul Azis, Fadilah |
| title |
Nonlinear control of Hexarotor system using
Proportional Derivative Sliding Mode Controller
(PD-SMC) |
| title_short |
Nonlinear control of Hexarotor system using
Proportional Derivative Sliding Mode Controller
(PD-SMC) |
| title_full |
Nonlinear control of Hexarotor system using
Proportional Derivative Sliding Mode Controller
(PD-SMC) |
| title_fullStr |
Nonlinear control of Hexarotor system using
Proportional Derivative Sliding Mode Controller
(PD-SMC) |
| title_full_unstemmed |
Nonlinear control of Hexarotor system using
Proportional Derivative Sliding Mode Controller
(PD-SMC) |
| title_sort |
nonlinear control of hexarotor system using
proportional derivative sliding mode controller
(pd-smc) |
| publisher |
Springer |
| publishDate |
2022 |
| url |
http://irep.iium.edu.my/101215/1/101215_Nonlinear%20control%20of%20Hexarotor%20system.pdf http://irep.iium.edu.my/101215/2/101215_Nonlinear%20control%20of%20Hexarotor%20system_SCOPUS.pdf http://irep.iium.edu.my/101215/ https://link.springer.com/chapter/10.1007/978-981-16-8954-3_34 |
| _version_ |
1751535918124105728 |
| score |
13.159267 |