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Design and application of an adaptive backstepping sliding mode controller for a six-DOF quadrotor aerial robot

Mohd Ariffanan Mohd Basri

发表年份
2018
引用次数
34

摘要

SUMMARY The quadrotor aerial robot is a complex system and its dynamics involve nonlinearity, uncertainty, and coupling. In this paper, an adaptive backstepping sliding mode control (ABSMC) is presented for stabilizing, tracking, and position control of a quadrotor aerial robot subjected to external disturbances. The developed control structure integrates a backstepping and a sliding mode control approach. A sliding surface is introduced in a Lyapunov function of backstepping design in order to further improve robustness of the system. To attenuate a chattering problem, a saturation function is used to replace a discontinuous sign function. Moreover, to avoid a necessity for knowledge of a bound of external disturbance, an online adaptation law is derived. Particle swarm optimization (PSO) algorithm has been adopted to find parameters of the controller. Simulations using a dynamic model of a six degrees of freedom (DOF) quadrotor aerial robot show the effectiveness of the approach in performing stabilization and position control even in the presence of external disturbances.

关键词

BacksteppingControl theory (sociology)Sliding mode controlRobustness (evolution)Lyapunov functionControl engineeringNonlinear systemEngineeringRobotAdaptive control

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