Title :
Adaptive control for takeoff, hovering, and landing of a robotic fly
Author :
Chirarattananon, Pakpong ; Ma, Kevin Y. ; Wood, Robert J.
Author_Institution :
Sch. of Eng. & Appl. Sci., Harvard Univ., Cambridge, MA, USA
Abstract :
Challenges for controlled flight of a robotic insect are due to the inherent instability of the system, complex fluid-structure interactions, and the general lack of a complete system model. In this paper, we propose theoretical models of the system based on the limited information available from previous work and a comprehensive adaptive flight controller that is capable of coping with uncertainties in the system. We have demonstrated that the proposed methods enable the robot to achieve sustained hovering flights with relatively small errors compared to a similar but non-adaptive approach. Furthermore, vertical takeoff and landing flights are also shown to illustrate the fidelity of the flight controller.
Keywords :
adaptive control; aerospace control; aerospace robotics; mobile robots; stability; adaptive flight controller; complete system model; complex fluid-structure interactions; controlled flight; hovering adaptive control; landing adaptive control; landing flights; robotic fly; robotic insect; sustained hovering flights; system instability; takeoff adaptive control; vertical takeoff; Attitude control; Equations; Robot sensing systems; Torque; Vectors; Vehicle dynamics;
Conference_Titel :
Intelligent Robots and Systems (IROS), 2013 IEEE/RSJ International Conference on
Conference_Location :
Tokyo
DOI :
10.1109/IROS.2013.6696901
