1. Intelligent Controller Design for Quad-Rotor Stabilization in Presence of Parameter Variations
- Author
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Doukhi, Oualid, Fayjie, Abdur Razzaq, and Lee, Deok Jin
- Subjects
Mathematical models -- Usage ,Unmanned aerial vehicles -- Analysis -- Equipment and supplies ,Control systems -- Design and construction -- Models ,Rotors -- Equipment and supplies ,Transportation industry - Abstract
The paper presents the mathematical model of a quadrotor unmanned aerial vehicle (UAV) and the design of robust Self-Tuning PID controller based on fuzzy logic, which offers several advantages over certain types of conventional control methods, specifically in dealing with highly nonlinear systems and parameter uncertainty. The proposed controller is applied to the inner and outer loop for heading and position trajectory tracking control to handle the external disturbances caused by the variation in the payload weight during the flight period. The results of the numerical simulation using gazebo physics engine simulator and real-time experiment using AR drone 2.0 test bed demonstrate the effectiveness of this intelligent control strategy which can improve the robustness of the whole system and achieve accurate trajectory tracking control, comparing it with the conventional proportional integral derivative (PID)., 1. Introduction The payload variation has been playing an important role in the field of transportation. The control for the unmanned aerial vehicles (UAV) becomes more challenging when it involves [...]
- Published
- 2017
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