Title of article :
Mixed H2/H∞ Control Using a Fuzzy Singularly Perturbed Model with Multiple Perturbation Parameters for Gust Load Alleviation
Author/Authors :
YUAN, Yuan Tsinghua University - Department of Computer Science and Technology, China , HU, Yenan Beijing Institute of Astronautical System Engineering, China , SUN, Fuchun Tsinghua University - Department of Computer Science and Technology, China
Abstract :
This paper presents a mixed H2/H∞ control using fuzzy singularly perturbed model (FSPM) with multiple perturbation parameters. Since FSPM with multiple perturbation parameters is an extension of models with a single perturbation parameter, the theoretical results are applicable to a larger class of systems described by multiple time scale nonlinear models, such as flying aircraft and flexible space robots. The parameter-independent solution of the mixed H2/H∞ controller was obtained in the form of linear matrix inequalities (LMIs). The application of this approach to gust load alleviation of a flying vehicle verifies its effectiveness and flexibility.
Keywords :
fuzzy singularly perturbed model (FSPM) , mixed H2 , H∞ control , multiple perturbation parameters , gust load alleviation , flying vehicle
Journal title :
Tsinghua Science and Technology
Journal title :
Tsinghua Science and Technology
