A delay-dependent approach to H ∞ filtering for stochastic delayed jumping systems with sensor non-linearities

• Published in: International journal of control Vol. 80; no. 6; pp. 885 - 897
• Main Authors: Wei, Guoliang, Wang, Zidong, Shu, Huisheng, Fang, Jian'an
• Format: Journal Article
• Language: English
• Published: London Taylor & Francis Group 01.06.2007; Taylor & Francis
• Subjects: Applied sciences; Computer science; control theory; systems; Control theory. Systems; Exact sciences and technology; Itô equation; Disturbance rejection; Probabilistic approach; Measurement sensor; H infinite control; Delay system; Delay dependent system; Stochastic integral; Uncertain system; Filter; Linear matrix inequality; Delay time; Jumping; Lyapunov function
• ISSN: 0020-7179; 1366-5820
• DOI: 10.1080/00207170701203608

In this paper, a delay-dependent approach is developed to deal with the stochastic H ∞ filtering problem for a class of Itô type stochastic time-delay jumping systems subject to both the sensor non-linearities and the exogenous non-linear disturbances. The time delays enter into the system states, the sensor non-linearities and the external non-linear disturbances. The purpose of the addressed filtering problem is to seek an H ∞ filter such that, in the simultaneous presence of non-linear disturbances, sensor non-linearity as well as Markovian jumping parameters, the filtering error dynamics for the stochastic time-delay system is stochastically stable with a guaranteed disturbance rejection attenuation level γ. By using Itô's differential formula and the Lyapunov stability theory, we develop a linear matrix inequality approach to derive sufficient conditions under which the desired filters exist. These conditions are dependent on the length of the time delay. We then characterize the expression of the filter parameters, and use a simulation example to demonstrate the effectiveness of the proposed results.