Title :
Optimal H∞ filtering for discrete-time-delayed chaotic systems via a unified model
Author :
Liu, Meiqin ; Zhang, Senlin ; Tang, Xiaofang ; Fan, Zhen ; Zheng, Shiyou
Author_Institution :
Dept. of Syst. Sci. & Eng., Zhejiang Univ., Hangzhou, China
Abstract :
This paper presents a unified model, consisting of a linear dynamic system and a bounded static nonlinear operator. Most discrete-time chaotic systems, such as chaotic neural networks, Chua´s circuits, and Hénon map etc, can be transformed into this unified model. Based on the H∞ performance analysis of the estimation error system between the unified model and its improved Luenberger-like filter using the linear matrix inequality (LMI) approach, the optimal H∞ filter are designed to estimate the states of discrete-time chaotic systems with external disturbance. The H∞ filter not only guarantees the asymptotic stability of the estimation error system, but also reduces the influence of noise on the estimation error. Two numerical examples are exploited to illustrate the effectiveness of the proposed filter design schemes.
Keywords :
H∞ filters; asymptotic stability; chaos; delays; discrete time systems; linear matrix inequalities; linear systems; nonlinear control systems; nonlinear dynamical systems; state estimation; Chua circuits; H∞ performance analysis; Hénon map; Luenberger-like filter; asymptotic stability; bounded static nonlinear operator; chaotic neural networks; discrete-time-delayed chaotic systems; estimation error system; linear dynamic system; linear matrix inequality; noise influence reduction; optimal H∞ filtering design; state estimation; unified model; Chaotic communication; Integrated circuit modeling; Neural networks; Noise; Symmetric matrices; Synchronization; H∞ filtering; discrete-time chaotic systems; estimation error; neural networks; time delay;
Conference_Titel :
Information Fusion (FUSION), 2012 15th International Conference on
Conference_Location :
Singapore
Print_ISBN :
978-1-4673-0417-7
Electronic_ISBN :
978-0-9824438-4-2
