Non-stationary Almost Sure Invariance Principle for Hyperbolic Systems with Singularities

Chen, Jianyu; Yang, Yun; Zhang, Hong-Kun

doi:10.1007/s10955-018-2107-9

Cited by 5 publications

(5 citation statements)

References 65 publications

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“…However, when f is an unbounded observable, the CLT and ASIP may fail for some obvious reasons, for instance, f ∈ L 2 (µ) and thus the corresponding process {f • T n } n≥0 has no finite variance. In order to establish the limiting theorems for such process, we need some to add some extra conditions, such as moment controls in [11,12]. In this paper, we impose the following conditions on the dynamically Hölder series f ∈ H W,γ,t .…”

Section: Stochastic Propertiesmentioning

confidence: 99%

On Coupling Lemma and Stochastic Properties with Unbounded Observables for 1-d Expanding Maps

Chen¹,

Zhang²,

Zhang³

2020

Preprint

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In this paper, we establish a coupling lemma for standard families in the setting of piecewise expanding interval maps with countably many branches. Our method merely requires that the expanding map satisfies Chernov's one-step expansion at q-scale and eventually covers a magnet interval. Therefore, our approach is particularly powerful for maps whose inverse Jacobian has low regularity and those who does not satisfy the big image property. The main ingredients of our coupling method are two crucial lemmas: the growth lemma in terms of the characteristic Z function and the covering ratio lemma over the magnet interval. We first prove the existence of an absolutely continuous invariant measure. What is more important, we further show that the growth lemma enables the liftablity of the Lebesgue measure to the associated Hofbauer tower, and the resulting invariant measure on the tower admits a decomposition of Pesin-Sinai type. Furthermore, we obtain the exponential decay of correlations and the almost sure invariance principle (which is a functional version of the central limit theorem). For the first time, we are able to make a direct relation between the mixing rates and the Z function, see (2.7). The novelty of our results relies on establishing the regularity of invariant density, as well as verifying the stochastic properties for a large class of unbounded observables.Finally, we verify our assumptions for several well known examples that were previously studied in the literature, and unify results to these examples in our framework.

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Section: Stochastic Propertiesmentioning

confidence: 99%

On Coupling Lemma and Stochastic Properties with Unbounded Observables for 1-d Expanding Maps

Chen¹,

Zhang²,

Zhang³

2020

Preprint

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“…Quenched limit theorems for random dynamical systems are abundant in the literature, going back at least to Kifer [14]. Nevertheless they remain a lively topic of research to date: Recent central limit theorems and invariance principles in such a setting include Ayyer-Liverani-Stenlund [4], Nandori-Szasz-Varju [17], Aimino-Nicol-Vaienti [2], Abdelkader-Aimino [1], Nicol-Török-Vaienti [18], Dragičević et al [9,10], and Chen-Yang-Zhang [8]. Moreover, Bahsoun et al [5][6][7] establish important optimal quenched correlation bounds with applications to limit results, and Freitas-Freitas-Vaienti [11] establish interesting extreme value laws which have attracted plenty of attention during the past years.…”

Section: The Problemmentioning

confidence: 99%

Quenched Normal Approximation for Random Sequences of Transformations

Hella

Stenlund

2019

J Stat Phys

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We study random compositions of transformations having certain uniform fiberwise properties and prove bounds which in combination with other results yield a quenched central limit theorem equipped with a convergence rate, also in the multivariate case, assuming fiberwise centering. For the most part we work with non-stationary randomness and non-invariant, non-product measures. Independently, we believe our work sheds light on the mechanisms that make quenched central limit theorems work, by dissecting the problem into three separate parts.

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“…for a sufficiently large N 0 ∈ N. By Lemma 5.3, x 0 = π(a) is a periodic point of ( R, F ) with period (2N 0 + 1), and thus a periodic point of (M, T ) with period (2N 0 τ 0 + τ 1 ). 11 Note that the points x 0 and F (x 0 ) = π(σ(a)) = x 0 both belong to R s a 0 ∩ R u a 0 ⊂ R. We denote the solid rectangles U s a 0 := U( R s a 0 ), U u a 0 := U( R u a 0 ), and U a 0 := U s a 0 ∩ U u a 0 , then the points x 0 and F (x 0 ) both belong to U a 0 .…”

Section: Construction Of the Final Magnet R *mentioning

confidence: 99%

“…The ASIP was first shown by Chernov [15] in the exponential case, and the vector-valued case was later proved by Melbourne and Nicol [39] using the martingale methods and then by Gouëzel [34] with the purely spectral methods. Under our assumptions (H1)-(H5), a non-stationary version of ASIP was established by the first and third authors in [11].…”

Section: Almost Sure Invariance Principlementioning

confidence: 99%

Markov partition and Thermodynamic Formalism for Hyperbolic Systems with Singularities

Chen,

Wang,

Zhang

2017

Preprint

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For 2-d hyperbolic systems with singularities, statistical properties are rather difficult to establish because of the fragmentation of the phase space by singular curves. In this paper, we construct a Markov partition of the phase space with countable states for a general class of hyperbolic systems with singularities. Stochastic properties with respect to the SRB measure immediately follow from our construction of the Markov partition, including the decay rates of correlations and the central limit theorem. We further establish the thermodynamic formalism for the family of geometric potentials, by using the inducing scheme of hyperbolic type. All the results apply to Sinai dispersing billiards, and their small perturbations due to external forces and nonelastic reflections with kicks and slips.

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Non-stationary Almost Sure Invariance Principle for Hyperbolic Systems with Singularities

Cited by 5 publications

References 65 publications

On Coupling Lemma and Stochastic Properties with Unbounded Observables for 1-d Expanding Maps

On Coupling Lemma and Stochastic Properties with Unbounded Observables for 1-d Expanding Maps

Quenched Normal Approximation for Random Sequences of Transformations

Markov partition and Thermodynamic Formalism for Hyperbolic Systems with Singularities

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