His primary areas of investigation include Dynamical systems theory, Statistical physics, Mathematical analysis, Dynamical system and Fixed point. His studies in Dynamical systems theory integrate themes in fields like Poisson distribution, Statistics, Mixing, Extreme value theory and Hyperbolic systems. The study incorporates disciplines such as Calculus, Stochastic process and Observable in addition to Extreme value theory.
Sandro Vaienti interconnects Discrete mathematics, Central limit theorem and Invariant in the investigation of issues within Statistical physics. Many of his research projects under Mathematical analysis are closely connected to Invariance principle and Return time with Invariance principle and Return time, tying the diverse disciplines of science together. As a member of one scientific family, Sandro Vaienti mostly works in the field of Dynamical system, focusing on Asymptotic distribution and, on occasion, Almost everywhere, Geometry and Probability theory.
His scientific interests lie mostly in Dynamical systems theory, Mathematical analysis, Statistical physics, Extreme value theory and Observable. His work carried out in the field of Dynamical systems theory brings together such families of science as Fixed point, Distribution, Dynamical system, Poisson distribution and Mixing. His research on Mathematical analysis also deals with topics like
His Statistical physics study incorporates themes from Measure, Orbit, Multifractal system and Asymptotic distribution. His Extreme value theory study combines topics in areas such as Attractor and Applied mathematics. His Observable research integrates issues from Invariant measure, Computation, Markov chain and Interval.
His primary scientific interests are in Dynamical systems theory, Extreme value theory, Statistical physics, Mathematical analysis and Observable. Sandro Vaienti has researched Dynamical systems theory in several fields, including Fixed point, Rare events, Central limit theorem and Mixing. His work deals with themes such as Stochastic process, Attractor, Orbit and Applied mathematics, which intersect with Extreme value theory.
The Statistical physics study combines topics in areas such as Phase space, Linear dynamical system, Random dynamical system, Dynamical system and Probabilistic logic. His study in the fields of Series under the domain of Mathematical analysis overlaps with other disciplines such as Invariance principle. The various areas that Sandro Vaienti examines in his Observable study include Generalized extreme value distribution, Fractal, Computation and Piecewise.
The scientist’s investigation covers issues in Dynamical systems theory, Extreme value theory, Statistical physics, Observable and Limit. Sandro Vaienti has included themes like Ergodic theory, Fixed point, Mathematical analysis and Central limit theorem in his Dynamical systems theory study. His Mathematical analysis research is multidisciplinary, incorporating elements of Invariant and Metastability.
His Extreme value theory research incorporates themes from Phase space, Rare events, Stochastic process, Point process and Attractor. His Statistical physics study combines topics from a wide range of disciplines, such as Combinatorics and dynamical systems and Invariant measure. The study incorporates disciplines such as Generalized extreme value distribution, Fractal and Orbit in addition to Observable.
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A probabilistic approach to intermittency
Carlangelo Liverani;Benoît Saussol;Sandro Vaienti.
Ergodic Theory and Dynamical Systems (1999)
Statistics of Return Times:¶A General Framework and New Applications
Masaki Hirata;Benoît Saussol;Sandro Vaienti.
Communications in Mathematical Physics (1999)
Extremes and Recurrence in Dynamical Systems
Valerio Lucarini;Davide Faranda;Ana Cristina Gomes Monteiro Moreira de Freitas;Jorge Miguel Milhazes de Freitas.
Extremes and Recurrence in Dynamical Systems: Lucarini/Extremes and Recurrence in Dynamical Systems
Valerio Lucarini;Davide Faranda;Ana Cristina Gomes Monteiro Moreira Freitas;Jorge Miguel Milhazes de Freitas.
Recurrence, Dimensions, and Lyapunov Exponents
B. Saussol;Serge Troubetzkoy;S. Vaienti.
Journal of Statistical Physics (2002)
Hitting and return times in ergodic dynamical systems
N. Haydn;Y. Lacroix;S. Vaienti.
Annals of Probability (2005)
Numerical Convergence of the Block-Maxima Approach to the Generalized Extreme Value Distribution
Davide Faranda;Valerio Lucarini;Giorgio and Turchetti;Sandro Vaienti.
Journal of Statistical Physics (2011)
Conformal measure and decay of correlation for covering weighted systems
Carlangelo Liverani;Benoit Saussol;Sandro Vaienti.
Ergodic Theory and Dynamical Systems (1998)
Generalized Dimensions, Entropies, and Liapunov Exponents from the Pressure Function for Strange Sets
D. Bessis;G. Paladin;G. Paladin;G. Paladin;G. Turchetti;S. Vaienti.
Journal of Statistical Physics (1988)
Extreme Value distribution for singular measures
Valerio Lucarini;Davide Faranda;Giorgio Turchetti;Sandro Vaienti.
arXiv: Dynamical Systems (2011)
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