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Design and nonlinear control of an indoor quadrotor flying robot

Zheng Fang, Xiuying Wang, Jian Sun

Year
2010
Citations
17

Abstract

Micro Vertical Take-off and Landing (VTOL) systems represent a useful class of flying robots because of their strong capabilities for small-area monitoring and building exploration. In this paper, we describe a small quadrotor flying robot for the use of indoor autonomous navigation and exploration. Three-level hardware architecture is developed and a fusion of different sensors is implemented, which enables automatic hovering, control from Remote-Controller, localization and navigation in indoor environment. Since the flying robot is a nonlinear underactuated system, an Integral- Backstepping control algorithm is proposed to realize robust attitude and position control. Both simulation and experiment results are presented to validate the performance of the proposed control algorithm.

Keywords

BacksteppingUnderactuationRobotControl engineeringComputer scienceAttitude controlController (irrigation)Mobile robotNonlinear systemControl (management)

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