AbstractIn a planar geometric network vertices are located in the plane, and edges are straight line segments connecting pairs of vertices, such that no two of them intersect. In this paper we study distributed computing in asynchronous, failure-free planar geometric networks, where each vertex is associated to a processor, and each edge to a bidirectional message communication link. Processors are aware of their locations in the plane.We consider fundamental computational geometry problems from the distributed computing point of view, such as finding the convex hull of a geometric network and identification of the external face. We also study the classic distributed computing problem of leader election, to understand the impact that geomet...
AbstractLower bounds for distributed algorithms for complete networks of processors (i.e., networks ...
International audienceIn this paper we ask which properties of a distributed network can be computed...
International audienceWe propose a radically new family of geometric graphs, i.e., Hypocomb, Reduced...
AbstractIn a planar geometric network vertices are located in the plane, and edges are straight line...
Search for efficient algorithms for distributed systems has become an important area of computer sci...
AbstractWe explore the communication properties of a family of networks, based on the incidence rela...
We address the problem of discovering routes in strongly connected planar geometric networks with di...
An efficient distributed algorithm is given for computing single-source shortest paths in an asynchr...
We study the message complexity of distributed algorithms in Tori and Chordal Rings when the communi...
AbstractIn this paper, we consider the problem of recognizing whether a given network is a rectangul...
AbstractWe present an algorithm which makes it possible to exchange data in a network efficiently an...
The problem of electing a leader in distributed networks of processors where the topology is fixed a...
There exist at least two models of parallel computing, namely, shared-memory and message-passing. Th...
31 pages.International audienceThe present paper surveys recent and promising results about graph--t...
International audienceSensor networks are emerging as a paradigm for future computing, but pose a nu...
AbstractLower bounds for distributed algorithms for complete networks of processors (i.e., networks ...
International audienceIn this paper we ask which properties of a distributed network can be computed...
International audienceWe propose a radically new family of geometric graphs, i.e., Hypocomb, Reduced...
AbstractIn a planar geometric network vertices are located in the plane, and edges are straight line...
Search for efficient algorithms for distributed systems has become an important area of computer sci...
AbstractWe explore the communication properties of a family of networks, based on the incidence rela...
We address the problem of discovering routes in strongly connected planar geometric networks with di...
An efficient distributed algorithm is given for computing single-source shortest paths in an asynchr...
We study the message complexity of distributed algorithms in Tori and Chordal Rings when the communi...
AbstractIn this paper, we consider the problem of recognizing whether a given network is a rectangul...
AbstractWe present an algorithm which makes it possible to exchange data in a network efficiently an...
The problem of electing a leader in distributed networks of processors where the topology is fixed a...
There exist at least two models of parallel computing, namely, shared-memory and message-passing. Th...
31 pages.International audienceThe present paper surveys recent and promising results about graph--t...
International audienceSensor networks are emerging as a paradigm for future computing, but pose a nu...
AbstractLower bounds for distributed algorithms for complete networks of processors (i.e., networks ...
International audienceIn this paper we ask which properties of a distributed network can be computed...
International audienceWe propose a radically new family of geometric graphs, i.e., Hypocomb, Reduced...