Experimental Validation of a Helicopter Autopilot Design using Model-Based PID Control

Experimental Validation of a Helicopter Autopilot Design using Model-Based PID Control

Autonomous helicopter flight provides a challenging control problem. In order to evaluate control designs, an experimental platform must be developed in order to conduct flight tests. However, the literature describing existing platforms focuses on the hardware details, while little information is g...

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Veröffentlicht in:Journal of intelligent & robotic systems 2013-04, Vol.70 (1-4), p.385-399
Hauptverfasser: Godbolt, Bryan, Vitzilaios, Nikolaos I., Lynch, Alan F.
Format: Artikel
Sprache:eng
Schlagworte:
Artificial Intelligence
Computer programs
Control
Control theory
Design engineering
Electrical Engineering
Engineering
Helicopters
Mathematical models
Mechanical Engineering
Mechatronics
Platforms
Proportional integral derivative
Robotics
Software
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Zusammenfassung:Autonomous helicopter flight provides a challenging control problem. In order to evaluate control designs, an experimental platform must be developed in order to conduct flight tests. However, the literature describing existing platforms focuses on the hardware details, while little information is given regarding software design and control algorithm implementation. This paper presents the design, implementation, and validation of an experimental helicopter platform with a primary focus on a software framework optimized for controller development. In order to validate the operation of this platform and provide a basis for comparison with more sophisticated nonlinear designs, a PID controller with feedforward gravity compensation is derived using the generally accepted small helicopter model and tested experimentally.
ISSN:0921-0296
1573-0409
DOI:10.1007/s10846-012-9720-7