Gaussian fluctuations in some determinantal processes

Hägg, Jonas

January 2007

This thesis consists of two parts, Papers A and B, in which some stochastic processes, originating from random matrix theory (RMT), are studied. In the first paper we study the fluctuations of the kth largest eigenvalue, xk, of the Gaussian unitary ensemble (GUE). That is, let N be the dimension of the matrix and k depend on N in such a way that k and N-k both tend to infinity as N - ∞. The main result is that xk, when appropriately rescaled, converges in distribution to a Gaussian random variable as N → ∞. Furthermore, if k1 < ...< km are such that k1, ki+1 - ki and N - km, i =1, ... ,m - 1, tend to infinity as N → ∞ it is shown that (xk1 , ... , xkm) is multivariate Gaussian in the rescaled N → ∞ limit. In the second paper we study the Airy process, A(t), and prove that it fluctuates like a Brownian motion on a local scale. We also prove that the Discrete polynuclear growth process (PNG) fluctuates like a Brownian motion in a scaling limit smaller than the one where one gets the Airy process. / QC 20100716

Random matrices

limit theorems

MATHEMATICS

MATEMATIK

The application of probability limit theorems to problems in DNA sequence analysis

田淑敏, Tin, Suk-man.

January 1994

published_or_final_version / Statistics / Master / Master of Philosophy

Limit theorems (Probability theory)

Nucleotide sequence.

Dependent central limit theorems and invariance principles.

McLeish, D. L.

January 1972

No description available.

Martingales (Mathematics)

Limit theorems (Probability theory)

The application of probability limit theorems to problems in DNA sequence analysis /

Tin, Suk-man.

January 1994

Thesis (M. Phil.)--University of Hong Kong, 1994. / Includes bibliographical references (leaves 170-182).

Elliptically contoured measures and the law of the iterated logarithm

Crawford, John Jerome.

January 1976

Thesis--Wisconsin. / Vita. Includes bibliographical references (leaves 68-69).

Limit theorems for random Euclidean graphs /

Shank, Nathan B.

January 2006

Thesis (Ph. D.)--Lehigh University, 2006. / Includes vita. Includes bibliographical references (leaf 92).

Limit theorems and statistical estimation for birth-growth processes

Lee, Hoi Yan

01 January 1999

No description available.

Limit theorems (Probability theory)

Poisson processes

Dependent central limit theorems and invariance principles.

McLeish, D. L.

January 1972

No description available.

Limit theorems (Probability theory)

Martingales (Mathematics)

Proofs of Some Limit Theorems in Probability

Hwang, E-Bin

12 1900

This study gives detailed proofs of some limit theorems in probability which are important in theoretical and applied probability, The general introduction contains definitions and theorems that are basic tools of the later development. Included in this first chapter is material concerning normal distributions and characteristic functions, The second chapter introduces lower and upper bounds of the ratio of the binomial distribution to the normal distribution., Then these bound are used to prove the local Deioivre-Laplace limit theorem. The third chapter includes proofs of the central limit theorems for identically distributed and non-identically distributed random variables,

probability theory

limit theorems

applied probability

theoritical probability

Limit theorems (Probability theory)

The enumeration of lattice paths and walks

Unknown Date

A well-known long standing problem in combinatorics and statistical mechanics is to find the generating function for self-avoiding walks (SAW) on a two-dimensional lattice, enumerated by perimeter. A SAW is a sequence of moves on a square lattice which does not visit the same point more than once. It has been considered by more than one hundred researchers in the pass one hundred years, including George Polya, Tony Guttmann, Laszlo Lovasz, Donald Knuth, Richard Stanley, Doron Zeilberger, Mireille Bousquet-Mlou, Thomas Prellberg, Neal Madras, Gordon Slade, Agnes Dit- tel, E.J. Janse van Rensburg, Harry Kesten, Stuart G. Whittington, Lincoln Chayes, Iwan Jensen, Arthur T. Benjamin, and many others. More than three hundred papers and a few volumes of books were published in this area. A SAW is interesting for simulations because its properties cannot be calculated analytically. Calculating the number of self-avoiding walks is a common computational problem. A recently proposed model called prudent self-avoiding walks (PSAW) was first introduced to the mathematics community in an unpublished manuscript of Pra, who called them exterior walks. A prudent walk is a connected path on square lattice such that, at each step, the extension of that step along its current trajectory will never intersect any previously occupied vertex. A lattice path composed of connected horizontal and vertical line segments, each passing between adjacent lattice points. We will discuss some enumerative problems in self-avoiding walks, lattice paths and walks with several step vectors. Many open problems are posted. / by Shanzhen Gao. / Thesis (Ph.D.)--Florida Atlantic University, 2011. / Includes bibliography. / Electronic reproduction. Boca Raton, Fla., 2011. Mode of access: World Wide Web.

Combinatorial analysis

Approximation theory

Mathematical statistics

Limit theorems (Probabilty theory)