Please use this identifier to cite or link to this item: http://localhost:8080/xmlui/handle/123456789/5194
Title: EXPONENTIAL STABILITY FOR SECOND-ORDER NEUTRAL STOCHASTIC SYSTEMS INVOLVING IMPULSES AND STATE-DEPENDENT DELAY (Article)
Authors: Ganesan, Arthi
Thangaraj, Manju
Ma, Yong-Ki
Keywords: exponential stability
neutral equations
stochastic systems
impulsive systems
state-dependent delay
Issue Date: Dec-2023
Publisher: Multidisciplinary Digital Publishing Institute (MDPI)
Abstract: Exponential stability criteria for neutral second-order stochastic systems involving impulses and state-dependent delay have been addressed in this paper based on stability theory, stochastic analysis, and the inequality technique. Some sufficient conditions are given to establish the exponential stability of such systems, which is well-established in the deterministic case, but less known for the stochastic case. In our model, the noise effect can be described as a symmetric Wiener process. By formulating the impulsive integral technique, exponential stability analysis of the pth moment of the second-order system involving stochastic perturbation is established. As an application that illustrates the theoretical formulation, an example is presented.
URI: https://www.mdpi.com/2073-8994/15/12/2135
ISSN: 20738994
Appears in Collections:b) 2023-Scopus Open Access (Pdf)



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