We examine the problem of rendezvous, i.e., having multiple mobile agents gather in a single node of the network. Unlike previous studies, we need to achieve rendezvous in presence of a very powerful adversary, a malicious agent that moves through the network and tries to block the honest agents and prevents them from gathering. The malicious agent can be thought of as a mobile fault in the network. The malicious agent is assumed to be arbitrarily fast, has full knowledge of the network and it cannot be exterminated by the honest agents. On the other hand, the honest agents are assumed to be quite weak: They are asynchronous and anonymous, they have only finite memory, they have no prior knowledge of the network and they can communicate wit...
International audienceTwo mobile agents (robots) with distinct labels have to meet in an arbitrary, ...
Mobile agent computing is being used in fields as diverse as artificial intelligence, computational ...
Rendezvous with detection differs from the usual rendezvous problem in that two mobile agents not on...
We examine the problem of rendezvous, i.e., having multiple mobile agents gather in a single node of...
A group of identical mobile agents moving asynchronously among the nodes of an anonymous network hav...
International audienceTwo mobile agents, starting from different nodes of an unknown network, have t...
The gathering of two or more agents in a graph is an important problem in the area of distributed co...
This paper studies the well-known problem of gathering multiple mobile agents moving in a graph, but...
We consider the problem of rendezvous or gathering of multiple autonomous entities (called mobile ag...
In this thesis we study mobile agent systems consisting of a network of nodes and a set of autonomou...
In the rendezvous search problem, two mobile agents must move along the n nodes of a network so as t...
The mobile agent rendezvous problem consists of k ≥ 2 mobile agents trying to rendezvous or meet in ...
International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. T...
AbstractA set of k mobile agents with distinct identifiers and located in nodes of an unknown anonym...
International audienceTwo mobile agents (robots) with distinct labels have to meet in an arbitrary, ...
International audienceTwo mobile agents (robots) with distinct labels have to meet in an arbitrary, ...
Mobile agent computing is being used in fields as diverse as artificial intelligence, computational ...
Rendezvous with detection differs from the usual rendezvous problem in that two mobile agents not on...
We examine the problem of rendezvous, i.e., having multiple mobile agents gather in a single node of...
A group of identical mobile agents moving asynchronously among the nodes of an anonymous network hav...
International audienceTwo mobile agents, starting from different nodes of an unknown network, have t...
The gathering of two or more agents in a graph is an important problem in the area of distributed co...
This paper studies the well-known problem of gathering multiple mobile agents moving in a graph, but...
We consider the problem of rendezvous or gathering of multiple autonomous entities (called mobile ag...
In this thesis we study mobile agent systems consisting of a network of nodes and a set of autonomou...
In the rendezvous search problem, two mobile agents must move along the n nodes of a network so as t...
The mobile agent rendezvous problem consists of k ≥ 2 mobile agents trying to rendezvous or meet in ...
International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. T...
AbstractA set of k mobile agents with distinct identifiers and located in nodes of an unknown anonym...
International audienceTwo mobile agents (robots) with distinct labels have to meet in an arbitrary, ...
International audienceTwo mobile agents (robots) with distinct labels have to meet in an arbitrary, ...
Mobile agent computing is being used in fields as diverse as artificial intelligence, computational ...
Rendezvous with detection differs from the usual rendezvous problem in that two mobile agents not on...