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Autonomous Flight Control System for Intelligent Aero-robot for Disaster Prevention

Hiroaki Nakanishi, Hiroyuki Hashimoto, Naomi Hosokawa, Koichi Inoue, Akira Sato

Year
2003
Citations
20

Abstract

This paper describes methods to develop autonomous flight control systems for an aero-robot using an unmanned helicopter RMAX developed by YAMAHA Co., LTD. Such systems are difficult to develop because helicopter dynamics are nonlinear. We propose an efficient method to design controllers by training neural networks. The proposed method is easy to use with online training or adaptive controllers to compensate for undesirable effects not modeled or sudden changes of the controlled object and environment, making the control system highly reliable. Results of flight experiments demonstrate the effectiveness of our approach.

Keywords

Control engineeringComputer scienceRobotArtificial neural networkControl (management)Adaptive controlControl systemObject (grammar)Artificial intelligenceEngineering

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