On the role of non-uniform smoothness parameters and the probabilistic method in applications of the Stein-Chen Method

Weinberg, Graham Victor

Unknown Date

The purpose of the research presented here is twofold. The first component explores the probabilistic interpretation of Stein’s method, as introduced in Barbour (1988). This is done in the setting of random variable approximations. This probabilistic method, where the Stein equation is interpreted in terms of the generator of an underlying birth and death process having equilibrium distribution equal to that of the approximant, provides a natural explanation of why Stein’s method works. An open problem has been to use this generator approach to obtain bounds on the differences of the solution to the Stein equation. Uniform bounds on these differences produce Stein “magic” factors, which control the bounds. With the choice of unit per capita death rate for the birth and death process, we are able to produce a result giving a new Stein factor bound, which applies to a selection of distributions. The proof is via a probabilistic approach, and we also include a probabilistic proof of a Stein factor bound from Barbour, Holst and Janson (1992). These results generalise the work of Xia (1999), which applies to the Poisson distribution with unit per capita death rate. (For complete abstract open document)

A Limit Theorem in Cryptography.

Lynch, Kevin

16 August 2005

Cryptography is the study of encryptying and decrypting messages and deciphering encrypted messages when the code is unknown. We consider Λπ(Δx, Δy) which is a count of how many ways a permutation satisfies a certain property. According to Hawkes and O'Connor, the distribution of Λπ(Δx, Δy) tends to a Poisson distribution with parameter ½ as m → ∞ for all Δx,Δy ∈ (Z/qZ)m - 0. We give a proof of this theorem using the Stein-Chen method: As qm approaches infinity, the distribution of Λπ(Δx, Δy) is approximately Poisson with parameter ½. Error bounds for this approximation are provided.

Cryptography

Stein-Chen Method

Poisson Approximation

Cryptanalysis

Error Bound

Coupling Method

Even Word

Multiple of Three Word

Applied Mathematics

Physical Sciences and Mathematics

Some contributions in probability and statistics of extremes.

Kratz, Marie

15 November 2005

Part I - Level crossings and other level functionals.<br />Part II - Some contributions in statistics of extremes and in statistical mechanics.

[MATH] Mathematics

autoregressive processes

chaos decomposition

CLT

crossings

empirical process

exceedances

extremes

Gaussian fileds

Gaussian processes

heavy tails

Hermite polynomials

level curve

level functionals

linear programming

maxima

moving average processes

order statistics

parameter estimation

Poisson convergence

Poisson processes

qq-plot

random spin systems

rate of convergence

regular variation

sojourn time

spectral moment

Stein-Chen method

time series analysis