论文信息 - Geometrical conditions for the stability of orbits in planar systems

Geometrical conditions for the stability of orbits in planar systems

Abstract Given a vector field X on the real plane, we study the influence of the curvature of the orbits of ẋ = X┴(x) in the stability of those of the system x˙ = X(x). We pay special attention to the case in which this curvature is negative in the whole plane. Under this assumption, we classify the possible critical points and give a criterion for a point to be globally asymptotically stable. In the general case, we also provide expressions for the first three derivatives of the Poincaré map associated to a periodic orbit in terms of geometrical quantities.

Ronaldo Garcia | A. Guillamón | A. Gasull

[1] Carlos Gutierrez,et al. A solution to the bidimensional Global Asymptotic Stability Conjecture , 1995 .

[2] Robert Feßler,et al. A proof of the two-dimensional Markus-Yamabe Stability Conjecture and a generalization , 1995 .

[3] C. Wang. Generalized Geographical Family and the Stability of Limit Cycles , 1994 .

[4] Carmen Chicone,et al. Bifurcations of nonlinear oscillations and frequency entrainment near resonance , 1992 .

[5] J. Sotomayor,et al. Global asymptotic stability of differential equations in the plane , 1991 .

[6] M. Berger,et al. Differential Geometry: Manifolds, Curves, and Surfaces , 1987 .

[7] Kazuo Yamato. An effective method of counting the number of limit cycles , 1979, Nagoya Mathematical Journal.

[8] N. G. Lloyd,et al. A Note on the Number of Limit Cycles in Certain Two‐Dimensional Systems , 1979 .

[9] C. Olech,et al. ON THE GLOBAL STABILITY OF AN AUTONOMOUS SYSTEM ON THE PLANE , 1961 .

[10] Stephen P. Diliberto. I. ON SYSTEMS OF ORDINARY DIFFERENTIAL EQUATIONS , 1950 .