Title :
LMI-based quadratic stability analysis for hierarchical fuzzy systems
Author :
Park, C.-W. ; Kim, J.-H. ; Kim, S. ; Park, M.
Author_Institution :
Dept. of Electr. & Electron. Eng., Yonsei Univ., South Korea
fDate :
9/1/2001 12:00:00 AM
Abstract :
The quadratic stability issue in a hierarchical fuzzy system is investigated and a Takagi-Sugeno (TLS) type hierarchical fuzzy controller is proposed to regulate the nth order linear SISO plant with the bounded time-varying uncertainties or nonlinearities. The proposed T-S type hierarchical fuzzy controller is made up of n-1 2D T-S type fuzzy controllers and allows for the simple closed dynamics in the diagonal norm-bound linear differential inclusions (DNLDI) formulation. For this closed dynamics, the stability condition in linear matrix inequalities (LMI) form is presented. Then, based on the stability condition, a method for finding the maximum stable ranges of the T-S type hierarchical fuzzy controller gains is proposed. To illustrate the performance of the proposed method, a third order simple example is given
Keywords :
control nonlinearities; control system analysis; fuzzy control; hierarchical systems; matrix algebra; multidimensional systems; stability; time-varying systems; uncertain systems; 2D fuzzy controllers; DNLDI; LMI; LMI-based quadratic stability analysis; T-S type hierarchical fuzzy controller; Takagi-Sugeno type hierarchical fuzzy controller; bounded time-varying nonlinearities; bounded time-varying uncertainties; diagonal norm-bound linear differential inclusions; hierarchical fuzzy systems; linear SISO plant; linear matrix inequalities; maximum stable ranges; simple closed dynamics; stability condition;
Journal_Title :
Control Theory and Applications, IEE Proceedings -
DOI :
10.1049/ip-cta:20010679
