In dynamical systems theory, a standard method for passing from discrete time to continuous time is to construct the suspension flow under a roof function. In this paper, we give conditions under which statistical laws, such as the central limit theorem and almost sure invariance principle, for the underlying discrete time system are inherited by the suspension flow. As a consequence, we give a simpler proof of the results of Ratner (1973) and recover the results of Denker and Philipp (1984) for Axiom A flows. Moreover, we obtain several new results for nonuniformly and partially hyperbolic flows, including frame flows on negatively curved manifolds satisfying a pinching condition. </p
In this paper we establish a general dynamical Central Limit Theorem (CLT) for group actions which a...
This report is the foreword of a series dedicated to stochastic deformations of curves. Problems are...
For geometric Lorenz attractors (including the classical Lorenz attractor) we obtain a greatly simpl...
We prove an almost sure invariance principle that is valid for general classes of nonuniformly expan...
The work of E. Hopf and G.A. Hedlund, in the 1930s, on transitivity and ergodicity of the geodesic f...
Recent work of Dolgopyat shows that "typical" hyperbolic flows exhibit rapid decay of correlations. ...
Funding: Proyecto Fondecyt 1110040 for funding visit to PUC-Chile and partial support from NSF grant...
Abstract. We consider a large class of partially hyperbolic sys-tems containing, among others, ane m...
The perceived randomness in the time evolution of "chaotic" dynamical systems can be characterized b...
In this article, we establish a central limit theorem (CLT) for random dynamical systems (RDS), whic...
International audienceThe purpose of this article is to support the idea that "whenever we can prove...
In recent work, I. Melbourne and D. Terhesiu, 2014 obtain optimal results for the asymptotic of the ...
Acesso restrito: Texto completo. p. 505-534We consider invertible discrete-time dynamical systems ha...
In this paper, we are interested in the asymptotical behavior of the error between the solution of a...
Dans cette thèse nous étudions les théorèmes limites dans l’analyse statistique dessystèmes dynamiqu...
In this paper we establish a general dynamical Central Limit Theorem (CLT) for group actions which a...
This report is the foreword of a series dedicated to stochastic deformations of curves. Problems are...
For geometric Lorenz attractors (including the classical Lorenz attractor) we obtain a greatly simpl...
We prove an almost sure invariance principle that is valid for general classes of nonuniformly expan...
The work of E. Hopf and G.A. Hedlund, in the 1930s, on transitivity and ergodicity of the geodesic f...
Recent work of Dolgopyat shows that "typical" hyperbolic flows exhibit rapid decay of correlations. ...
Funding: Proyecto Fondecyt 1110040 for funding visit to PUC-Chile and partial support from NSF grant...
Abstract. We consider a large class of partially hyperbolic sys-tems containing, among others, ane m...
The perceived randomness in the time evolution of "chaotic" dynamical systems can be characterized b...
In this article, we establish a central limit theorem (CLT) for random dynamical systems (RDS), whic...
International audienceThe purpose of this article is to support the idea that "whenever we can prove...
In recent work, I. Melbourne and D. Terhesiu, 2014 obtain optimal results for the asymptotic of the ...
Acesso restrito: Texto completo. p. 505-534We consider invertible discrete-time dynamical systems ha...
In this paper, we are interested in the asymptotical behavior of the error between the solution of a...
Dans cette thèse nous étudions les théorèmes limites dans l’analyse statistique dessystèmes dynamiqu...
In this paper we establish a general dynamical Central Limit Theorem (CLT) for group actions which a...
This report is the foreword of a series dedicated to stochastic deformations of curves. Problems are...
For geometric Lorenz attractors (including the classical Lorenz attractor) we obtain a greatly simpl...