We study two random processes on an n-vertex graph inspired by the internal diffusion limited aggregation (IDLA) model. These processes can also be regarded as protocols for allocating jobs in a distributed network of servers. In both processes n particles start from an arbitrary but fixed origin. Each particle performs a simple random walk until it first encounters an unoccupied vertex, at which point the vertex becomes occupied and the random walk terminates. In one of the processes, called Sequential-IDLA, a single particle moves until settling and only then does the next particle start whereas in the second process, called Parallel-IDLA, all unsettled particles move simultaneously. The second process is akin to running the first in para...
We develop a mathematical model considering a random walker with long-range hops on arbitrary graphs...
We study properties of multiple random walks on a graph under various assumptions of interaction bet...
Abstract — Dynamical processes taking place on networks have received much attention in recent years...
We study two random processes on an n-vertex graph inspired by the internal diffusion limited aggreg...
In this thesis, we study a process called Dispersion, in which M particles are dispersed among the v...
AbstractConsider k particles, 1 red and k-1 white, chasing each other on the nodes of a graph G. If ...
full versionInternational audienceWe consider a natural network diffusion process, modeling the spre...
In a coalescing random walk, a set of particles make independent discrete-time random walks on a gra...
A token located at some vertex v of a connected, undirected graph G on n vertices is said to be taki...
Coalescing random walks is a fundamental stochastic process, where a set of particles perform indepe...
The Moran process models the spread of mutations in populations on graphs. We investigate the absorp...
We consider a simple Markov chain for d-regular graphs on n vertices, and show that the mixing time ...
AbstractWe study the cover time of multiple random walks on undirected graphs G=(V,E). We consider k...
Abstract Random walks on graphs are an essential primitive for many randomised algorithms and sto...
Abstract Random walks on graphs are an essential primitive for many randomised algorithms and sto...
We develop a mathematical model considering a random walker with long-range hops on arbitrary graphs...
We study properties of multiple random walks on a graph under various assumptions of interaction bet...
Abstract — Dynamical processes taking place on networks have received much attention in recent years...
We study two random processes on an n-vertex graph inspired by the internal diffusion limited aggreg...
In this thesis, we study a process called Dispersion, in which M particles are dispersed among the v...
AbstractConsider k particles, 1 red and k-1 white, chasing each other on the nodes of a graph G. If ...
full versionInternational audienceWe consider a natural network diffusion process, modeling the spre...
In a coalescing random walk, a set of particles make independent discrete-time random walks on a gra...
A token located at some vertex v of a connected, undirected graph G on n vertices is said to be taki...
Coalescing random walks is a fundamental stochastic process, where a set of particles perform indepe...
The Moran process models the spread of mutations in populations on graphs. We investigate the absorp...
We consider a simple Markov chain for d-regular graphs on n vertices, and show that the mixing time ...
AbstractWe study the cover time of multiple random walks on undirected graphs G=(V,E). We consider k...
Abstract Random walks on graphs are an essential primitive for many randomised algorithms and sto...
Abstract Random walks on graphs are an essential primitive for many randomised algorithms and sto...
We develop a mathematical model considering a random walker with long-range hops on arbitrary graphs...
We study properties of multiple random walks on a graph under various assumptions of interaction bet...
Abstract — Dynamical processes taking place on networks have received much attention in recent years...