[1] G. Nicolis and I. Prigogine, Self-Orgamzation in Nonequilibrium Systems. Wiley, NewYork (1977).
[2] H. Haken, Synergetics, Springer-Verlag, Berlin (1977).
[3] R. Graham, Stochastic methods in nonequilibrium thermodynamics, in L. Arnold et al.eds., Stochastic Nonlinear Systems in Physics, Chemiatry and Biotogy, Berlin, 3pringer-Verlag (1981), 202~212.
[4] C. Meunier and A. D. Verga. Noise and bifurcation, J. Stat. Phys., 50, 1~(1988),345~375.
[5] N. Sri Namachchivaya, Stochastic bifurcation, APPl. Math. & Compt., 38 (1990), 101~159.
[6] L. Arnold, Lyapunov exponents of nonlinear stochastic systems, Nonlinear StochasticDynamic Engrg. Systeins, F. Ziegler and G. I. Schueller eds., Springer-Verlag, Berlin,New York (1987), 181~203.
[7] R. Z. Khasminskii, Necessary and sufficient conditions for the asymptotic stabilitv oflinear stochastic systems, Theory Prob. & APPl., 12, 1 (1967), 144~147.
[8] R. Z. Khasminskii, Stochastic Stability of Differential Equations, Sijthoff and Noordloff.Alphen aan den Rijn, the Netherlands, Rockville, Maryland. USA (1980).
[9] L. Arnold and V. Wihstutz, eds., Lyapunov exponents, Proc. of a Workshop, held inBremen, November 12~15, 1984, Springer-Verlag, Berlin, Heidelberg (1986).
[10] S. T. Ariaratnam and W. C. Xie, Lyapunov exponent and rotation number of a two-dimensional nilpotent stochastic system, Dyna. & Stab. Sys., 5, 1 (1990), 1~9.
[11] S. T. Ariaratnam, D. S. F. Tam and W. C. Xie, Lyapunov exponents of two-degree-of-freedom linear stochastic systems, Stochastic Structural Dynamics l, Y. K. Lin and I.Elishakoff eds., Springer-Verlag, Berlin (1991), 1~9.
[12] N. Sri Namachchivaya and S. Talwar, Maximal Lyapunov exponent and rotationnumber for stochastically perturbed co-dimension two bifurcation, J. Sound & Vib.. 169.3 (1993), 349~372.
[13] L. Arnold and W. Kliemann, Qualitative theory of stochastic systems, Prob. Anal. andRelaled Topics. A. T. Bharucha-Reid eds. Academic Press, New York, Lindon. 3 (1983).1~79.
[14] Z. Schuss, Theory and APPlications of Stochaslic Differential Equations, John Wiley &Sons, New York (1980).
[15] K. Ito and H. P. McKean, Jr., Diffusion Processes and Tleir Sample Paths. Springer-Verlag, New York (1965).
[16] S. Karlin and H. M. Taylor, A Second Course in Stochastic Processes, Academic Press.New York (1981).
[17] F. Kozin and S. Prodromou, Necessary and sufficient conditions for almost sure samplestability of linear Ito equations, SIAM J. APPl. Math., 21 (1971), 413~424.
[18] R. R. Mitchell and F. Kozin, Sample stability of second order linear differentialequations with wide band noise coefficients, SIAM. J. APPl. Math., 27 (1974), 571~605.
[19] K. Nishoka, On the stability of two-dimensional linear stochastic systems-Kotlai Math.Sem. Rep., 27 (1976), 21~230.
[20] L. Z. Xu, W. Z. Chen. The AsymPtotic Analysis Methods and Its APPlicaIions, DefenceIndustries Press (1991). (in Chinese)
[21] Nicolis and I. Prigogine, Exploring Complexity, Sichuan Education Press. Chengdu(1986). (Chinese version)
[22] Liu Xianbin, Bifurcation behavior of stochastic mechanics system and its variationalmethod. Ph. D. Thesis, Southwest Jiaotong University (1995). (in Chinese) |
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