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A competition process on $\mathbb{Z}^d$ is considered, where two species compete to color the sites. The entities are driven by branching random walks. Specifically red (blue) particles reproduce in discrete time and place offspring…

Probability · Mathematics 2022-03-29 Maria Deijfen , Timo Vilkas

We consider a two-type stochastic competition model on the integer lattice Z^d. The model describes the space evolution of two ``species'' competing for territory along their boundaries. Each site of the space may contain only one…

Probability · Mathematics 2007-05-23 George Kordzakhia , Steven P. Lalley

Chase-Escape is a simple stochastic model that describes a predator-prey interaction. In this model, there are two types of particles, red and blue. Red particles colonize adjacent empty sites at an exponential rate $\lambda_{R}$, whereas…

Disordered Systems and Neural Networks · Physics 2018-07-24 Si Tang , George Kordzakhia , Steven P. Lalley

We study a graph-theoretic model of interface dynamics called $Competitive\, Erosion$. Each vertex of the graph is occupied by a particle, which can be either red or blue. New red and blue particles are emitted alternately from their…

Probability · Mathematics 2018-08-14 Shirshendu Ganguly , Yuval Peres

We study survival among two competing types in two settings: a planar growth model related to two-neighbour bootstrap percolation, and a system of urns with graph-based interactions. In the planar growth model, uncoloured sites are given a…

Probability · Mathematics 2017-10-03 Daniel Ahlberg , Simon Griffiths , Svante Janson , Robert Morris

We study a large family of competing spatial growth models. In these the vertices in Z^d can take on three possible states {0,1,2}. Vertices in states 1 and 2 remain in their states forever, while vertices in state 0 which are adjacent to a…

Probability · Mathematics 2007-05-23 Christopher Hoffman

In 2006, the fourth author proposed a graph-theoretic model of interface dynamics called competitive erosion. Each vertex of the graph is occupied by a particle that can be either red or blue. New red and blue particles alternately get…

Probability · Mathematics 2015-01-16 Shirshendu Ganguly , Lionel Levine , Yuval Peres , James Propp

This paper provides a survey of known results and open problems for the two-type Richardson model, which is a stochastic model for competition on $\mathbb{Z}^d$. In its simplest formulation, the Richardson model describes the evolution of a…

Probability · Mathematics 2015-09-24 Maria Deijfen , Olle Häggström

We study competition of two spreading colors starting from single sources on the configuration model with i.i.d. degrees following a power-law distribution with exponent $\tau\in (2,3)$. In this model two colors spread with a fixed and…

Probability · Mathematics 2015-04-01 Remco van der Hofstad , Julia Komjathy

We study competing first passage percolation on graphs generated by the configuration model with infinite-mean degrees. Initially, two uniformly chosen vertices are infected with type 1 and type 2 infection, respectively, and the infection…

Probability · Mathematics 2022-04-11 Maria Deijfen , Remco van der Hofstad , Matteo Sfragara

We study the following one-dimensional model of annihilating particles. Beginning with all sites of $\mathbb{Z}$ uncolored, a blue particle performs simple random walk from $0$ until it reaches a nonzero red or uncolored site, and turns…

Probability · Mathematics 2018-04-03 Shirshendu Ganguly , Lionel Levine , Sourav Sarkar

We study a competitive stochastic growth model called chase-escape in which red particles spread to adjacent uncolored sites and blue only to adjacent red sites. Red particles are killed when blue occupies the same site. If blue has rate-1…

Probability · Mathematics 2019-05-28 Rick Durrett , Matthew Junge , Si Tang

We study the growth of two competing infection types on graphs generated by the configuration model with a given degree sequence. Starting from two vertices chosen uniformly at random, the infection types spread via the edges in the graph…

Probability · Mathematics 2017-11-09 Daniel Ahlberg , Maria Deijfen , Svante Janson

In growing populations, the fate of mutations depends on their competitive ability against the ancestor and their ability to colonize new territory. Here we present a theory that integrates both aspects of mutant fitness by coupling the…

Populations and Evolution · Quantitative Biology 2023-01-19 Daniel W. Swartz , Hyunseok Lee , Mehran Kardar , Kirill S. Korolev

In this paper, we study the online class cover problem where a (finite or infinite) family $\cal F$ of geometric objects and a set ${\cal P}_r$ of red points in $\mathbb{R}^d$ are given a prior, and blue points from $\mathbb{R}^d$ arrives…

Computational Geometry · Computer Science 2024-07-04 Minati De , Anil Maheshwari , Ratnadip Mandal

The competition interface between two growing ``Young clusters'' (diagrams), in a two-dimensional random cone, is mapped to the path of a second-class particle in the one-dimensional totally asymmetric simple exclusion process. Using the…

Probability · Mathematics 2011-11-10 Pablo A. Ferrari , James B. Martin , Leandro P. R. Pimentel

In this paper, we describe a process where two types of particles, marked by the colors red and blue, arrive in a domain $D$ at a constant rate and are to be matched to each other according to the following scheme. At the time of arrival of…

Probability · Mathematics 2026-01-14 Mayank Manjrekar

Experimental and theoretical investigations of undulation patterns in high-pressure, inclined layer gas convection at a Prandtl number near unity are reported. Particular focus is given to the competition between the spatiotemporal chaotic…

Pattern Formation and Solitons · Physics 2015-06-26 Karen E. Daniels , Oliver Brausch , Werner Pesch , Eberhard Bodenschatz

Chase-escape is a competitive growth process in which red particles spread to adjacent empty sites according to a rate-$\lambda$ Poisson process while being chased and consumed by blue particles according to a rate-$1$ Poisson process.…

Probability · Mathematics 2022-05-24 Emma Bernstein , Clare Hamblen , Matthew Junge , Lily Reeves

We consider a two type (red and blue or $R$ and $B$) particle population that evolves on the $d$-dimensional lattice according to some reaction-diffusion process $R+B\to 2R$ and starts with a single red particle and a density $\rho$ of blue…

Probability · Mathematics 2009-01-07 A. Gaudilliere , F. R. Nardi
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