Title :
Robust Suboptimal Control of HiMAT Vehicle Based on Improved Genetic Algorithm
Author_Institution :
Sch. of Math., Phys. & Inf. Sci., Zhejiang Ocean Univ., Zhoushan, China
Abstract :
In this work, a robust suboptimal controller for the longitudinal-motion of highly maneuverable technology (HiMAT) vehicle is presented. The controller design is centered around a linearized short period rigid model at a Mach 0.9, altitude 20,000 ft and angle of attack 1.19 deg flight condition. The weighting matrices with respect to the suboptimal control scheme, which are used to synthesize a performance index, are selected by an improved genetic algorithm. In addition, in order to improve the robust performance of HiMAT vehicle, parameter uncertainties are considered in the process of genetic search. The simulation results show that both the system states of the HiMAT vehicle and control inputs are all desirable, and the robust performance is acceptable as well, which demonstrates the effectiveness of the proposed method.
Keywords :
aircraft control; control system synthesis; genetic algorithms; matrix algebra; motion control; optimal control; performance index; robust control; search problems; uncertain systems; controller design; genetic algorithm; genetic search; highly maneuverable technology vehicle; linearized short period rigid model; longitudinal-motion control; parameter uncertainty; performance index; robust performance; robust suboptimal control; weighting matrix; Educational technology; Genetic algorithms; Marine technology; Marine vehicles; Optimal control; Performance analysis; Robust control; Sea measurements; Time domain analysis; Uncertain systems; HiMAT vehicle; genetic algorithm; robust control; suboptimal control; weighting matrices;
Conference_Titel :
Education Technology and Computer Science (ETCS), 2010 Second International Workshop on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-6388-6
Electronic_ISBN :
978-1-4244-6389-3
DOI :
10.1109/ETCS.2010.529
