Trajectory tracking nonlinear controller for wheeled mobile robots with disturbances observer
2 thg 5, 2024 | 15:46

Trajectory tracking nonlinear controller for wheeled mobile robots with disturbances observer



Wheeled Mobile Robots (WMRs) are systems with multiple industrial and civilian applications. Trajectory tracking is essential in many applications, such as surveillance, monitoring, and autonomous driving. However, in practical applications, a WMR is always affected by kinematic disturbances, state estimation error, and measurement noise, which may diminish the system’s performance. Hence, this work proposes a novel observer-based  controller that is robust against matched and unmatched disturbances. The proposed methodology compensates for disturbances through a disturbance observer, transforming the closed-loop system into a new one affected by uniformly bounded disturbances. 

Then, an  controller is designed to make the WMR track a desired reference signal. A formal stability proof demonstrates the feasibility of the new proposal. Also, feedback and finite-time controllers are used to assess the novel controller. Numerical simulations and experimental results with a scaled autonomous car-like robot demonstrate the novel controller’s efficiency and outstanding performance, despite disturbances when compared against finite-time and feedback controllers.






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Wheeled Mobile Robots (WMRs) are systems with multiple industrial and civilian applications. Trajectory tracking is essential in many applications, such as surveillance, monitoring, and autonomous driving. However, in practical applications, a WMR is always affected by kinematic disturbances, state estimation error, and measurement noise, which may diminish the system’s performance. Hence, this work proposes a novel observer-based  controller that is robust against matched and unmatched disturbances. The proposed methodology compensates for disturbances through a disturbance observer, transforming the closed-loop system into a new one affected by uniformly bounded disturbances. 

Then, an  controller is designed to make the WMR track a desired reference signal. A formal stability proof demonstrates the feasibility of the new proposal. Also, feedback and finite-time controllers are used to assess the novel controller. Numerical simulations and experimental results with a scaled autonomous car-like robot demonstrate the novel controller’s efficiency and outstanding performance, despite disturbances when compared against finite-time and feedback controllers.






LINK DOWNLOAD


LINK DOWNLOAD - BẢN FULL (TÀI LIỆU VIP MEMBER)

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