Martingale Couplings and Bounds on Tails of Probability Distributions

Luh, Kyle

01 May 2011

Wassily Hoeffding, in his 1963 paper, introduces a procedure to derive inequalities between distributions. This method relies on finding a martingale coupling between the two random variables. I have developed a construction that establishes such couplings in various urn models. I use this construction to prove the inequality between the hypergeometric and binomial random variables that appears in Hoeffding's paper. I have then used and extended my urn construction to create new inequalities.

60E15 Inequalities; stochastic orderings

60C05 Combinatorial Probability

Probability

Belief Propagation and Algorithms for Mean-Field Combinatorial Optimisations

Khandwawala, Mustafa

January 2014

We study combinatorial optimization problems on graphs in the mean-field model, which assigns independent and identically distributed random weights to the edges of the graph. Specifically, we focus on two generalizations of minimum weight matching on graphs. The first problem of minimum cost edge cover finds application in a computational linguistics problem of semantic projection. The second problem of minimum cost many-to-one matching appears as an intermediate optimization step in the restriction scaffold problem applied to shotgun sequencing of DNA. For the minimum cost edge cover on a complete graph on n vertices, where the edge weights are independent exponentially distributed random variables, we show that the expectation of the minimum cost converges to a constant as n →∞ For the minimum cost many-to-one matching on an n x m complete bipartite graph, scaling m as [ n/α ] for some fixed α > 1, we find the limit of the expected minimum cost as a function of α. For both problems, we show that a belief propagation algorithm converges asymptotically to the optimal solution. The belief propagation algorithm yields a near optimal solution with lesser complexity than the known best algorithms designed for optimality in worst-case settings. Our proofs use the machinery of the objective method and local weak convergence, which are ideas developed by Aldous for proving the ζ(2) limit for the minimum cost bipartite matching. We use belief propagation as a constructive proof technique to supplement the objective method. Recursive distributional equations(RDEs) arise naturally in the objective method approach. In a class of RDEs that arise as extensions of the minimum weight matching and travelling salesman problems, we prove existence and uniqueness of a fixed point distribution, and characterize its domain of attraction.

Combinatorial Optimization

Belief Propagation Algorithms

Local Weak Convergence

Edge-Cover

Many-to-one Matchings

Combinatorial Probability

Mean Field Combinatorial Optimizations

Mean-Field Model

Combinatorial Probability

Computer Science

Generalizations of Szego Limit Theorem : Higher Order Terms and Discontinuous Symbols

Gioev, Dimitri

January 2001

No description available.

Regularized determinants

Toeplitz operators

Wiener-Hopf operators

asymptotics

general theory of PsDO

combinatorial identities

random walks

combinatorial probability

symmetric functions

Generalizations of Szego Limit Theorem : Higher Order Terms and Discontinuous Symbols

Gioev, Dimitri

January 2001

No description available.

Regularized determinants

Toeplitz operators

Wiener-Hopf operators

asymptotics

general theory of PsDO

combinatorial identities

random walks

combinatorial probability

symmetric functions

On Random k-Out Graphs with Preferential Attachment

Peterson, Nicholas Richard

28 August 2013

No description available.

Mathematics

Combinatorial probability

random graphs

random mappings

Hansen and Jaworski

digraphs

functional digraph

vertex connectivity

minimum vertex degree

k-core

total variation distance