论文信息 - Stabilization of period doubling bifurcations and implications for control of chaos

Stabilization of period doubling bifurcations and implications for control of chaos

Abstract The stabilization of period doubling bifurcations for discrete-time nonlinear systems is investigated. It is shown that generically such bifurcations can be stabilized using smooth feedback, even if the linearized system is uncontrollable at criticality. In the course of the analysis, expressions are derived for bifurcation stability coefficients of general n - dimensional systems undergoing period doubling bifurcation. A connection is determined between control of the amplitude of a period doubled orbit and the elimination of a period doubling cascade to chaos. For illustration, the results are applied to the Henon attractor.

[1] P. Holmes,et al. Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields , 1983, Applied Mathematical Sciences.

[2] E. Abed,et al. Local feedback stabilization and bifurcation control, II. Stationary bifurcation , 1987 .

[3] Bruce B. Peckham,et al. Period doubling with higher-order degeneracies , 1991 .

[4] G. Iooss,et al. Elementary stability and bifurcation theory , 1980 .

[5] E. Abed,et al. Local feedback stabilization and bifurcation control, I. Hopf bifurcation , 1986 .

[6] Thomas Kailath,et al. Linear Systems , 1980 .