The beeping model is an extremely restrictive broadcast communication model that relies only on carrier sensing. We consider two problems in this model: ($∆+1$)-vertex coloring and maximal independent set (MIS), for a network of unknown size n and unknown maximum degree ∆. Solving these problems allows to overcome communication interferences, and to break symmetry, a core component of many distributed protocols. The presented results apply to general graphs, but are efficient in graphs with low edge density (sparse graphs), such as bounded degree graphs, planar graphs and graphs of bounded arboricity. We present $O(∆^2 log(n) + ∆^3)$ time deterministic uniform MIS and coloring protocols, which are asymptotically time optimal for bounded deg...
Given a graph G = (V;E) with n vertices, m edges and maximum vertex degree , the load distribution o...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Abstract. We explore the question how well we can color graphs in distributed models, especially in ...
The beeping model is an extremely restrictive broadcast communication model that relies only on carr...
International audienceThe beeping model is an extremely restrictive broadcast communication model th...
We give simple, deterministic, distributed algorithms for computing maximal matchings, maximal indep...
We study the edge-coloring problem in the message-passing model of distributed computing. This is on...
We give simple, deterministic, distributed algorithms for computing maximal matchings, maximal indep...
We consider the problem of finding a maximal independent set (MIS) in the discrete beeping model int...
The beeping model is an extremely restrictive broadcast communication model that relies only on carr...
International audienceGiven a palette P of at most ξ colors, and a parameter d, a (d,ξ)-coloring of ...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Graph coloring is a central problem in distributed computing. Both vertex- and edge-coloring problem...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...
Abstract We consider the problem of computing a maximal independent set (MIS) in an extremely harsh ...
Given a graph G = (V;E) with n vertices, m edges and maximum vertex degree , the load distribution o...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Abstract. We explore the question how well we can color graphs in distributed models, especially in ...
The beeping model is an extremely restrictive broadcast communication model that relies only on carr...
International audienceThe beeping model is an extremely restrictive broadcast communication model th...
We give simple, deterministic, distributed algorithms for computing maximal matchings, maximal indep...
We study the edge-coloring problem in the message-passing model of distributed computing. This is on...
We give simple, deterministic, distributed algorithms for computing maximal matchings, maximal indep...
We consider the problem of finding a maximal independent set (MIS) in the discrete beeping model int...
The beeping model is an extremely restrictive broadcast communication model that relies only on carr...
International audienceGiven a palette P of at most ξ colors, and a parameter d, a (d,ξ)-coloring of ...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Graph coloring is a central problem in distributed computing. Both vertex- and edge-coloring problem...
Consider an n-vertex graph G = (V,E) of maximum degree ∆, and suppose that each vertex v ∈ V hosts a...
Abstract We consider the problem of computing a maximal independent set (MIS) in an extremely harsh ...
Given a graph G = (V;E) with n vertices, m edges and maximum vertex degree , the load distribution o...
Consider the following simple coloring algorithm for a graph on n vertices. Each vertex chooses a co...
Abstract. We explore the question how well we can color graphs in distributed models, especially in ...