Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system
Cart Inverted Pendulum (CIP) system is a benchmark problem in nonlinear automatic control. It is commonly used to verify the robustness of any proposed nonlinear controller. CIP is mostly represented by two second order differential equations to avoid complexity due to the DC motor dynamics. This re...
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my.um.eprints.66242019-10-25T04:19:54Z http://eprints.um.edu.my/6624/ Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system Elsayed, B.A. Hassan, Mohamed Mohsen Abdel-Naeim Mekhilef, Saad TS Manufactures Cart Inverted Pendulum (CIP) system is a benchmark problem in nonlinear automatic control. It is commonly used to verify the robustness of any proposed nonlinear controller. CIP is mostly represented by two second order differential equations to avoid complexity due to the DC motor dynamics. This representation is not practical for the real CIP dynamics and might lead to instability. Therefore in this paper, two third-order differential equations were derived to combine the pendulum system and DC motor dynamics to have a more realistic mathematical model. Friction between the cart and rail was included in the system equations through a nonlinear friction model. To stabilize the obtained nonlinear electromechanical CIP model, a third-order Fuzzy Sliding Mode Controller (FSMC) was designed. The chattering of the control signal was eliminated using general bill shape membership functions for the Fuzzy controller. Simulation results proved the robustness of the proposed FSMC over Linear Quadratic Regulator Controller (LQRC). For instant, the overshoot in the cart position response was reduced by 300. 2013 Article PeerReviewed Elsayed, B.A. and Hassan, Mohamed Mohsen Abdel-Naeim and Mekhilef, Saad (2013) Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system. Applied Mathematics & Information Sciences, 7 (1). pp. 193-201. ISSN 1935-0090 |
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TS Manufactures Elsayed, B.A. Hassan, Mohamed Mohsen Abdel-Naeim Mekhilef, Saad Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
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Cart Inverted Pendulum (CIP) system is a benchmark problem in nonlinear automatic control. It is commonly used to verify the robustness of any proposed nonlinear controller. CIP is mostly represented by two second order differential equations to avoid complexity due to the DC motor dynamics. This representation is not practical for the real CIP dynamics and might lead to instability. Therefore in this paper, two third-order differential equations were derived to combine the pendulum system and DC motor dynamics to have a more realistic mathematical model. Friction between the cart and rail was included in the system equations through a nonlinear friction model. To stabilize the obtained nonlinear electromechanical CIP model, a third-order Fuzzy Sliding Mode Controller (FSMC) was designed. The chattering of the control signal was eliminated using general bill shape membership functions for the Fuzzy controller. Simulation results proved the robustness of the proposed FSMC over Linear Quadratic Regulator Controller (LQRC). For instant, the overshoot in the cart position response was reduced by 300. |
| format |
Article |
| author |
Elsayed, B.A. Hassan, Mohamed Mohsen Abdel-Naeim Mekhilef, Saad |
| author_facet |
Elsayed, B.A. Hassan, Mohamed Mohsen Abdel-Naeim Mekhilef, Saad |
| author_sort |
Elsayed, B.A. |
| title |
Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
| title_short |
Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
| title_full |
Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
| title_fullStr |
Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
| title_full_unstemmed |
Decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
| title_sort |
decoupled third-order fuzzy sliding model control for cart-inverted pendulum system |
| publishDate |
2013 |
| url |
http://eprints.um.edu.my/6624/ |
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1648736055240687616 |
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13.160551 |