Dynamic modeling and nonlinear tracking control of a novel modified quadrotor |
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Authors: | Mohamad Ali Tofigh Mohamad J. Mahjoob Moosa Ayati |
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Affiliation: | School of Mechanical Engineering, College of Engineering, University of Tehran, Tehran, Iran |
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Abstract: | In this article, a nonlinear tracking controller is designed based on Lyapunov stability for a novel aerial robot. The proposed 6‐rotor configuration improves stability and payload lifting capacity of the robot compared with conventional quadrotors while avoiding further complexities in the robot dynamics and steering principles. The dynamical model of the robot is derived using Newton‐Euler method. The model represents a nonlinear, coupled, and underactuated system. The proposed control strategy includes 2 main parts: an attitude controller and a position controller. Both the attitude and position controls are Lyapunov‐based nonlinear tracking controllers that guarantee the asymptotic convergence of the states' tracking errors to zero. Simulation results are presented to illustrate appropriate performance of the closed‐loop system in terms of position/attitude tracking even in the presence of wind disturbance. |
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Keywords: | lyapunov controller modified quadrotor nonlinear control novel aerial robot |
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