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International Journal of Control Volume 90, 2017 - Issue 8
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Original Articles

Stability analysis of neutral stochastic delay differential equations by a generalisation of Banach's contraction principle

Yingxin GuoSchool of Mathematical Sciences, Qufu Normal University, Qufu, P.R. China;National Key Laboratory of Industrial Control Technology, Institute of Cyber-Systems and Control, Department of Control Science and Engineering, Zhejiang University, Hangzhou, P.R. ChinaCorrespondence[email protected] [email protected]
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,
Chao XuNational Key Laboratory of Industrial Control Technology, Institute of Cyber-Systems and Control, Department of Control Science and Engineering, Zhejiang University, Hangzhou, P.R. ChinaView further author information
&
Jun WuNational Key Laboratory of Industrial Control Technology, Institute of Cyber-Systems and Control, Department of Control Science and Engineering, Zhejiang University, Hangzhou, P.R. ChinaView further author information
Pages 1555-1560 | Received 28 Apr 2015, Accepted 02 Jul 2016, Published online: 02 Aug 2016

References

  • Arnold, L. (1972). Stochastic differential equations: Theory and applications. New York, NY: Wiley.
  • Burton, T.A. (2003). Stability by fixed point theory or Lyapunov theory: A comparison. Fixed Point Theory, 4, 15–32.
  • Burton, T.A. (2004). Fixed points and stability of a nonconvolution equation. Proceedings of the American Mathematical Society, 132, 3679–3687.
  • Burton, T.A. (2005a). Fixed points, stability, and exact linearization. Nonlinear Analysis, 61, 857–870.
  • Burton, T.A. (2005b). Fixed points, stability, and harmless perturbations. Fixed Point Theory and Application, 1, 35–46.
  • Burton, T.A., & Zhang, B. (2004). Fixed points and stability of an integral equation: Nonuniqueness. Application Mathmatics Letters, 17, 839–846.
  • Chen, Y., Zheng, W.X., & Xue, A. (2010). A new result on stability analysis for stochastic neutral systems. Automatic, 45, 2100–2104.
  • Friedman, A. (1976). Stochastic differential equations and applications. New York, NY: Academic Press.
  • Furumochi, T. (2004). Asymptotic behavior of solutions of some functional differential equations by Schauder's theorem. Electronic Journal of Qualitative Theory of Differential Equations, 10, 1–11.
  • Guo, Y. (2012). A generalization of Banach's contraction principle for some non-obviously contractive operators in a cone metric space. Turkish Journal of Mathematics, 36, 297–304.
  • Graichen, K. (2012). A fixed-point iteration scheme for real-time model predictive control. Automatica, 48, 1300–1305.
  • Karatzas, I., & Shreve, S.E. (1991). Brownian motion and stochastic calculus, vol. 113 of graduate texts in mathematics (2nd ed.). New York, NY: Springer.
  • Kolmanovskii, V.B., & Myshkis, A.D. (1992). Applied theory of functional differential equations. Dordrecht: Kluwer Academic.
  • Kolmanovskii, V.B., & Nosov, V.R. (1986). Stability of functional differential equations. London: Academic Press.
  • Kuang, Y. (1993). Delay differential equations with applications in population dynamics. San Diego, CA: Academic Press.
  • Lisena, B. (2008). Global attractivity in nonautonomous logistic equations with delay. Nonlinear Analysis: RWA, 9, 53–63.
  • Liu, K., & Xia, X. (1999). On the exponential stability in mean square of neutral stochastic functional differential equations. Systems & Control Letters, 37, 207–215.
  • Luo, J. (2007). Fixed points and stability of neutral stochastic delay differential equations. Journal of Mathematical Analysis and Applications, 334(1), 431–440.
  • Luo, J., & Liu, K. (2008). Stability of infinite dimensional stochastic evolution equations with memory and Markovian jumps. Stochastic Processes and their Applications, 118, 864–895.
  • Mao, X.R. (1997). Stochastic differential equations and applications. Chichester: Horwood Publishing.
  • Raffoul, Y.N. (2004). Stability in neutral nonlinear differential equations with functional delays using fixed-point theory. Mathematical and Computer Modelling, 40, 691–700.
  • Zhang, B. (2005). Fixed points and stability in differential equations with variable delays. Nonlinear Analysis, 63, 233–242.

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