International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. Two mobile agents with different labels, starting at different nodes of an anonymous graph, have to meet. This task has been considered in the literature under two alternative scenarios: weak and strong. Under the weak scenario, agents may meet either at a node or inside an edge. Under the strong scenario, they have to meet at a node, and they do not even notice meetings inside an edge. Rendezvous algorithms under the strong scenario are known for synchronous agents. For asynchronous agents, rendezvous under the strong scenario is impossible even in the two-node graph, and hence only algorithms under the weak scenario were constructed. In this...
International audienceIn this paper, we address the deterministic rendezvous of mobile agents into a...
Two mobile agents starting at different nodes of an unknown network have to meet. This task is known...
Abstract We consider the rendezvous problem of gathering two or more identical agents that are initi...
Abstract. We introduce a variant of the deterministic rendezvous prob-lem for a pair of heterogeneou...
Two mobile agents (robots) having distinct labels and located in nodes of an unknown anonymous conne...
AbstractTwo mobile agents (robots) having distinct labels and located in nodes of an unknown anonymo...
International audienceWe introduce a variant of the deterministic rendezvous problem for a pair of h...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
International audienceIn this paper, we address the deterministic rendezvous in graphs where k mobil...
We introduce a variant of the deterministic rendezvous problem for a pair of heterogeneous agents op...
International audienceWe study rendezvous of two anonymous agents, where each agent knows its own in...
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, ...
International audienceIn this paper, we address the deterministic rendezvous of mobile agents into a...
Two mobile agents starting at different nodes of an unknown network have to meet. This task is known...
Abstract We consider the rendezvous problem of gathering two or more identical agents that are initi...
Abstract. We introduce a variant of the deterministic rendezvous prob-lem for a pair of heterogeneou...
Two mobile agents (robots) having distinct labels and located in nodes of an unknown anonymous conne...
AbstractTwo mobile agents (robots) having distinct labels and located in nodes of an unknown anonymo...
International audienceWe introduce a variant of the deterministic rendezvous problem for a pair of h...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
International audienceIn this paper, we address the deterministic rendezvous in graphs where k mobil...
We introduce a variant of the deterministic rendezvous problem for a pair of heterogeneous agents op...
International audienceWe study rendezvous of two anonymous agents, where each agent knows its own in...
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, ...
International audienceIn this paper, we address the deterministic rendezvous of mobile agents into a...
Two mobile agents starting at different nodes of an unknown network have to meet. This task is known...
Abstract We consider the rendezvous problem of gathering two or more identical agents that are initi...