Logical limit laws for layered permutations and related structures

We investigate the probabilistic evolution of a near-critical bisexual branching process with mating depending on the number of couples in the population. We determine sufficient conditions which guarantee either the almost sure extinction of such a process or its survival with positive probability. We also establish some limiting results concerning the sequences of couples, females, and males, suitably normalized. In particular, gamma, normal, and degenerate distributions are proved to be limit laws. The results also hold for bisexual Bienaymé–Galton–Watson processes, and can be adapted to other classes of near-critical bisexual branching processes.

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On Sinaĭ Billiards on Flat Surfaces with Horns

Journal of Statistical Physics ◽

10.1007/s10955-021-02746-w ◽

2021 ◽

Vol 183 (2) ◽

Author(s):

Henk Bruin

Keyword(s):

Exponential Decay ◽

Height Function ◽

Suspension Flow ◽

Limit Laws ◽

Suspension Flows ◽

Flat Surfaces ◽

Exponential Tails ◽

Exponential Decay Of Correlations ◽

Sinai Billiards ◽

Young Towers

AbstractWe show that certain billiard flows on planar billiard tables with horns can be modeled as suspension flows over Young towers (Ann. Math. 147:585–650, 1998) with exponential tails. This implies exponential decay of correlations for the billiard map. Because the height function of the suspension flow itself is polynomial when the horns are Torricelli-like trumpets, one can derive Limit Laws for the billiard flow, including Stable Limits if the parameter of the Torricelli trumpet is chosen in (1, 2).

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Second-order limit laws for occupation times of fractional Brownian motion

Journal of Applied Probability ◽

10.1017/jpr.2017.10 ◽

2017 ◽

Vol 54 (2) ◽

pp. 444-461 ◽

Cited By ~ 2

Author(s):

Fangjun Xu

Keyword(s):

Brownian Motion ◽

Fractional Brownian Motion ◽

Method Of Moments ◽

Second Order ◽

Hurst Index ◽

Occupation Times ◽

Limit Laws ◽

Additive Functionals ◽

Finite Dimensional ◽

Functional Version

Abstract We prove a second-order limit law for additive functionals of a d-dimensional fractional Brownian motion with Hurst index H = 1 / d, using the method of moments and extending the Kallianpur–Robbins law, and then give a functional version of this result. That is, we generalize it to the convergence of the finite-dimensional distributions for corresponding stochastic processes.

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Hausdorff–Besicovitch measure of fractal functional limit laws induced by Wiener process in Hölder norms

Annales de l Institut Henri Poincaré Probabilités et Statistiques ◽

10.1016/j.anihpb.2005.06.001 ◽

2006 ◽

Vol 42 (3) ◽

pp. 373-392

Author(s):

A LUCAS ◽

E THILLY

Keyword(s):

Wiener Process ◽

Functional Limit ◽

Limit Laws

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Poisson Limit Laws for Exponential Dispersion Models

Communication in Statistics- Theory and Methods ◽

10.1080/03610926.2010.529533 ◽

2012 ◽

Vol 41 (3) ◽

pp. 393-402

Author(s):

Ben Salah Nahla ◽

Masmoudi Afif

Keyword(s):

Dispersion Models ◽

Limit Laws ◽

Exponential Dispersion Models ◽

Poisson Limit

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EQUILIBRIUM ASSET RETURNS IN FINANCIAL MARKETS

International Journal of Theoretical and Applied Finance ◽

10.1142/s0219024918500632 ◽

2019 ◽

Vol 22 (02) ◽

pp. 1850063 ◽

Cited By ~ 1

Author(s):

DILIP B. MADAN ◽

WIM SCHOUTENS

Keyword(s):

Financial Markets ◽

Fixed Points ◽

Asset Prices ◽

Asset Returns ◽

Expected Returns ◽

Response Functions ◽

Limit Laws ◽

Return Distributions ◽

Equilibrium Distributions ◽

The Cost

Return distributions in the class of pure jump limit laws are observed to reflect numerous asymmetries between the upward and downward motions of asset prices. The return distributions are modeled by self-decomposable parametric laws with all parameters continuously responding to each other. Fixed points of the response functions define equilibrium distributions. The equilibrium distributions that can arise in practice are constrained by the level of return acceptability they may attain. As a consequence, expected returns are equated to risk measured by the cost of purchasing the negative of the centered return. The asymmetries studied include differences in scale, speed, power variation, excitation and cross-excitation.

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Splitting intervals II: Limit laws for lengths

Probability Theory and Related Fields ◽

10.1007/bf00320085 ◽

1987 ◽

Vol 75 (1) ◽

pp. 109-127 ◽

Cited By ~ 14

Author(s):

Michael D. Brennan ◽

Richard Durrett

Keyword(s):

Limit Laws

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Asymptotic Properties of Some Minor-Closed Classes of Graphs

Combinatorics Probability Computing ◽

10.1017/s0963548314000303 ◽

2014 ◽

Vol 23 (5) ◽

pp. 749-795 ◽

Cited By ~ 1

Author(s):

MIREILLE BOUSQUET-MÉLOU ◽

KERSTIN WELLER

Keyword(s):

Asymptotic Properties ◽

Systematic Investigation ◽

Exact Enumeration ◽

Limit Laws ◽

Closed Class ◽

Connected Case ◽

Non Gaussian ◽

A Minor ◽

Excluded Minors

Let${\cal A}$be a minor-closed class of labelled graphs, and let${\cal G}_{n}$be a random graph sampled uniformly from the set ofn-vertex graphs of${\cal A}$. Whennis large, what is the probability that${\cal G}_{n}$is connected? How many components does it have? How large is its biggest component? Thanks to the work of McDiarmid and his collaborators, these questions are now solved when all excluded minors are 2-connected.Using exact enumeration, we study a collection of classes${\cal A}$excluding non-2-connected minors, and show that their asymptotic behaviour may be rather different from the 2-connected case. This behaviour largely depends on the nature of the dominant singularity of the generating functionC(z) that counts connected graphs of${\cal A}$. We classify our examples accordingly, thus taking a first step towards a classification of minor-closed classes of graphs. Furthermore, we investigate a parameter that has not received any attention in this context yet: the size of the root component. It follows non-Gaussian limit laws (Beta and Gamma), and clearly merits a systematic investigation.

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