Title :
A comparison of morphing control strategies for a flexible wing micro air vehicle model incorporating Spatial Hysteresis damping
Author :
Walters, Jonathan B. ; Evans, Katie A. ; Chakravarthy, Animesh ; Kuhn, Lisa M.
Author_Institution :
Comput. Anal. & Modeling, Louisiana Tech Univ., Ruston, LA, USA
Abstract :
In this work we wish to improve upon our previous one-dimensional, nonlinear model describing the heave dynamics of an aeroelastic wing micro air vehicle. We incorporate a non-local internal damping type, known as spatial hysteresis, into the model. Here we compare the use of three linear feedback control laws, designed for the linearized system, acting to morph the aircraft wings to a certain shape over time. The control designs we compare are the Linear Quadratic Regulator, Linear Quadratic Gaussian, and Central controllers, with the latter two resulting in a nonlinear compensator when implemented in the nonlinear system.
Keywords :
aerospace components; aircraft control; autonomous aerial vehicles; damping; feedback; hysteresis; linear quadratic Gaussian control; linear systems; mobile robots; nonlinear control systems; telerobotics; aircraft wings; central controllers; flexible wing microair vehicle model; linear feedback control laws; linear quadratic Gaussian; linear quadratic regulator; linearized system; morphing control strategies; nonlinear compensator; nonlinear system; nonlocal internal damping; spatial hysteresis damping; Atmospheric modeling; Damping; Equations; Hysteresis; Materials; Mathematical model; Vehicles;
Conference_Titel :
Decision and Control (CDC), 2014 IEEE 53rd Annual Conference on
Conference_Location :
Los Angeles, CA
Print_ISBN :
978-1-4799-7746-8
DOI :
10.1109/CDC.2014.7039444
