论文信息 - The Discrete and Continuum Broken Line Process

The Discrete and Continuum Broken Line Process

In this work we introduce the discrete-space broken line process (with discrete and continues parameter values) and derive some of its properties. We explore polygonal Markov fields techniques developed by Arak-Surgailis. The discrete version is presented first and a natural continuum generalization to a continuous object living on the discrete lattice is then proposed and studied. The broken lines also resemble the Young diagram and the Hammersley process and are useful for computing last passage percolation values and finding maximal oriented paths. For a class of passage time distributions there is a family of boundary conditions that make the process stationary and self-dual. For such distributions there is a law of large numbers and the process extends to the infinite lattice. A proof of Burke's theorem emerges from the construction. We present a simple proof of the explicit law of large numbers for last passage percolation as an application. Finally we show that the exponential and geometric distributions are the only non-trivial ones that yield self-duality.

[1] Donatas Surgailis,et al. Consistent polygonal fields , 1991 .

[2] J. Propp,et al. Random Domino Tilings and the Arctic Circle Theorem , 1998, math/9801068.

[3] W. Fulton. Young Tableaux: With Applications to Representation Theory and Geometry , 1996 .

[4] Donatas Surgailis,et al. Poisson Broken Lines Process and its Application to Bernoulli First Passage Percolation , 1999 .

[5] E. Cator,et al. Cube Root Fluctuations for the Corner Growth Model Associated to the Exclusion Process , 2006, math/0603306.

[6] D. Surgailis,et al. Markov fields with polygonal realizations , 1989 .

[7] K. Johansson. Shape Fluctuations and Random Matrices , 1999, math/9903134.

[8] Arun Ram,et al. Book Review: Young tableaux: With applications to representation theory and geometry , 1999 .

[9] Polygonal fields: a new class of Markov fields on the plane , 1989 .

[10] P. Diaconis,et al. Hammersley's interacting particle process and longest increasing subsequences , 1995 .

[11] Igor Pak,et al. Partition bijections, a survey , 2006 .

[12] H. Rost,et al. Non-equilibrium behaviour of a many particle process: Density profile and local equilibria , 1981 .