Email the author SIMULATION OF NONLINEAR POSITION AND ATITUDE CONTROL FOR MICRO QUADCOPTER WITH LOW DISTURBANCE CONTROLLED BY SLIDING-MODE AND BACKSTEPPING METHODS
Abstract
The paper addresses the issues regarding the development of a robust assisted quad-rotor aerial robot (also known as quad-copter) with stable flight capacity. After detailing a dynamical flight model final results will be presented. For position control and attitude of the unmanned aerial vehicle (UAV) different nonlinear control laws are investigated. Back-stepping and sliding-mode controllers are compared with regards to stability and performance. Theoretical analysis will be validated by experiments on the implemented platform.
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S. Sastry, ”A mathematical introduction to robotic manipulation”, Boca Raton, FL, 1994.
P. Pounds, R.Mahony, ”Design of a Four-Rotor Aerial Robot”, Australasian Conference on Robotics and Automation, Auckland, 2002.
I. Fantoni, R.Lozano, ”Non-linear control for underactuated mechanical systems”, Springer, 2002.
R. Olfati-Saber,” Nonlinear control of underactuated mechanical systems with application to robotics and aerospace vehicles”, Phd thesis, MIT, 2001.
Nonlinear Attitude and Position Control of a MicroQuadrotor using Sliding Mode and Backstepping Techniques Patrick Adigbli, Technische Universit ̈at Munchen, 80290 Munchen, Germany
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