The Strict Stability of Impulsive Stochastic Functional Differential Equations with Markovian Switching
Strict stability can present the rate of decay of the
solution, so more and more investigators are beginning to study the
topic and some results have been obtained. However, there are few
results about strict stability of stochastic differential equations. In
this paper, using Lyapunov functions and Razumikhin technique, we
have gotten some criteria for the strict stability of impulsive stochastic
functional differential equations with markovian switching.
[1] X.Mao, Stochastic Differential Equations and Applications, Ellis Horwood,
Chischester, UK, 1997.
[2] V.Lakshmikantham, S.Leea, Differential and Integral Inequalities, Academic
Press, New York, 1969.
[3] V.Lakshmikantham, R.N.Mohapatra, Strict stability of differential equations,
Nonlinear Anal., 46(2001)915-921.
[4] V.Lakshmikantham, D.Bainov, P.Simeonov, theory of impulsive differential
equations, World Scientific, Singapore, 1989.
[5] Yu Zhang, Jitao Sun, Strict stability of impulsive functional differential
equations, J.Math.Anal.Appl., 301(2005)237-248.
[6] Zhiguo Yang, Daoyi Xu, Li Xiang, exponential p-stability of impulsive
stochastic differential equations with delay, Physics Leters A.
359(2006)129-137.
[7] Shijin Wu, Dong Han, Xianzhang Meng, p-moment stability of stochastic
differential equations with jumps, Applied Mathematics and computation,
152(2004)505-519.
[8] X.Mao, Stability of stochastic differential equations with Markovian
switching, Stoc.Proc.Appl. 79(1)(1999)45-67.
[9] Yumin Zhang, Yi Shen, Xiaoxin Liao, expenential stability of uncertain
hopfied neutral networks with discrete and distributed delays, Physics
Leters A., 354(4)(2006)288-297.
[10] Y.Zhang, J.Sun, Stability of impulsive functional differential equations,
Nonlinear Analysis 68(12)(2007),3665-3678.
[11] S.R.Bernfeld, C.Corduneanu, A.O.Ignatyev, On the stability of invariant
sets of functional equations, Nonlinear Analysis 55(2003)641-656.
[12] A.A. Martynyuk, Matrix-valued functionals approach for stability analysis
of functional differential equations, Nonlinear Analysis 56(2004)793-
802.
[13] V.Lakshmikantham, Uniform asymptotic stability criteria for functional
differential equations in terms of two measures, Nonlinear Analysis
34(1)(1998)1-6.
[14] JH Shen, Razumikhin techniques in impulsive functional differential
equations, Nonlinear Analysis 36(1)(1999)119-130.
[15] Z Luo,J Shen, New Razumikhin type theorems for impulsive functional
differential equations, Appl.Math.Comput. 125(2002)375-386.
[1] X.Mao, Stochastic Differential Equations and Applications, Ellis Horwood,
Chischester, UK, 1997.
[2] V.Lakshmikantham, S.Leea, Differential and Integral Inequalities, Academic
Press, New York, 1969.
[3] V.Lakshmikantham, R.N.Mohapatra, Strict stability of differential equations,
Nonlinear Anal., 46(2001)915-921.
[4] V.Lakshmikantham, D.Bainov, P.Simeonov, theory of impulsive differential
equations, World Scientific, Singapore, 1989.
[5] Yu Zhang, Jitao Sun, Strict stability of impulsive functional differential
equations, J.Math.Anal.Appl., 301(2005)237-248.
[6] Zhiguo Yang, Daoyi Xu, Li Xiang, exponential p-stability of impulsive
stochastic differential equations with delay, Physics Leters A.
359(2006)129-137.
[7] Shijin Wu, Dong Han, Xianzhang Meng, p-moment stability of stochastic
differential equations with jumps, Applied Mathematics and computation,
152(2004)505-519.
[8] X.Mao, Stability of stochastic differential equations with Markovian
switching, Stoc.Proc.Appl. 79(1)(1999)45-67.
[9] Yumin Zhang, Yi Shen, Xiaoxin Liao, expenential stability of uncertain
hopfied neutral networks with discrete and distributed delays, Physics
Leters A., 354(4)(2006)288-297.
[10] Y.Zhang, J.Sun, Stability of impulsive functional differential equations,
Nonlinear Analysis 68(12)(2007),3665-3678.
[11] S.R.Bernfeld, C.Corduneanu, A.O.Ignatyev, On the stability of invariant
sets of functional equations, Nonlinear Analysis 55(2003)641-656.
[12] A.A. Martynyuk, Matrix-valued functionals approach for stability analysis
of functional differential equations, Nonlinear Analysis 56(2004)793-
802.
[13] V.Lakshmikantham, Uniform asymptotic stability criteria for functional
differential equations in terms of two measures, Nonlinear Analysis
34(1)(1998)1-6.
[14] JH Shen, Razumikhin techniques in impulsive functional differential
equations, Nonlinear Analysis 36(1)(1999)119-130.
[15] Z Luo,J Shen, New Razumikhin type theorems for impulsive functional
differential equations, Appl.Math.Comput. 125(2002)375-386.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:64638", author = "Dezhi Liu Guiyuan Yang Wei Zhang", title = "The Strict Stability of Impulsive Stochastic Functional Differential Equations with Markovian Switching", abstract = "Strict stability can present the rate of decay of the
solution, so more and more investigators are beginning to study the
topic and some results have been obtained. However, there are few
results about strict stability of stochastic differential equations. In
this paper, using Lyapunov functions and Razumikhin technique, we
have gotten some criteria for the strict stability of impulsive stochastic
functional differential equations with markovian switching.", keywords = "Impulsive; Stochastic functional differential equation; Strict stability; Razumikhin technique.", volume = "5", number = "8", pages = "1431-6", }
