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Controller Design of Quadrotor Aerial Robot

Yu Yali, Sunfeng, Wang Yuanxi

Year
2012
Citations
23

Abstract

This paper deduced the nonlinear dynamic model of a quadrotor aerial robot, which was a VTOL (vertical tale-off and landing) unmanned air vehicle. Since that is a complex model with the highly nonlinear multivariable strongly coupled and under-actuated property, the controller design of it was very difficult. Aimed at attaining the excellent controller, the whole system can be divided into three interconnected parts: attitude subsystem, vertical subsystem, position subsystem. Then nonlinear control strategy of them has been described, such as SDRE and Backstepping. The controller design was presented to stabilize the whole system. Through simulation result indicates, the various models have shown that the control law stabilize a quadrotor aerial robot with good tracking performance and robotness of the system.

Keywords

BacksteppingControl theory (sociology)Controller (irrigation)Nonlinear systemComputer scienceRobotMultivariable calculusPosition (finance)Control engineeringControl (management)

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