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Chaotic dynamic behavior analysis and control for a financial risk system 被引量:1

Chaotic dynamic behavior analysis and control for a financial risk system
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摘要 According to the risk management process of financial markets,a financial risk dynamic system is constructed in this paper.Through analyzing the basic dynamic properties,we obtain the conditions for stability and bifurcation of the system based on Hopf bifurcation theory of nonlinear dynamic systems.In order to make the system's chaos disappear,we select the feedback gain matrix to design a class of chaotic controller.Numerical simulations are performed to reveal the change process of financial market risk.It is shown that,when the parameter of risk transmission rate changes,the system gradually comes into chaos from the asymptotically stable state through bifurcation.The controller can then control the chaos effectively. According to the risk management process of financial markets,a financial risk dynamic system is constructed in this paper.Through analyzing the basic dynamic properties,we obtain the conditions for stability and bifurcation of the system based on Hopf bifurcation theory of nonlinear dynamic systems.In order to make the system's chaos disappear,we select the feedback gain matrix to design a class of chaotic controller.Numerical simulations are performed to reveal the change process of financial market risk.It is shown that,when the parameter of risk transmission rate changes,the system gradually comes into chaos from the asymptotically stable state through bifurcation.The controller can then control the chaos effectively.
出处 《Chinese Physics B》 SCIE EI CAS CSCD 2013年第3期256-261,共6页 中国物理B(英文版)
基金 Project supported by the National Natural Science Foundation of China (Grant No. 70271068)
关键词 chaos attractor Hopf bifurcation financial risk chaos feedback control chaos attractor,Hopf bifurcation,financial risk,chaos feedback control
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参考文献31

  • 1Li T Y and York J A 1975 Amer. Math. Monthly. 82 985.
  • 2Chen P 1988 Syst. Dyna. Rev. 4 81.
  • 3Wang J, Chen Z and Yuan Z 2006 Chin. Phys. 15 1216.
  • 4Zheng Y and Zhang X D 2010 Chin. Phys. B 19 010505.
  • 5Min L Q, Zhang X D and Chen G R 2005 Int. Bifurc. Chaos 15 119.
  • 6Hommes C H 1993 Econ. Lett. 41 391.
  • 7Stutzer M J 1980 J. Econ. Dyna. Cont. 2 353.
  • 8Day R H 1982 Amer. Econ. Rev. 72 406.
  • 9Senguptaa J K and Zhenga Y 1995 Appl. Fina. Econ. 5 291.
  • 10Scheinkman J A and Lebaron B 1989 J. Busi. 62 311.

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