International audienceTwo mobile agents (robots) with distinct labels have to meet in an arbitrary, possibly infinite , unknown connected graph or in an unknown connected terrain in the plane. Agents are modeled as points, and the route of each of them only depends on its label and on the unknown environment. The actual walk of each agent also depends on an asynchronous adversary that may arbitrarily vary the speed of the agent, stop it, or even move it back and forth, as long as the walk of the agent is continuous, does not leave its route and covers all of it. Meeting in a graph means that both agents must be at the same time in some node or in some point inside an edge of the graph, while meeting in a terrain means that both agents must ...
International audienceIn this paper, we address the deterministic rendezvous in graphs where k mobil...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
International audienceA pair of agents (robots) are moving in a graph with the goal of meeting at th...
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, ...
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 consider the task of rendezvous in networks modeled as undirected graphs. T...
International audienceIn this paper we study efficient rendezvous of two mobile agents moving asynch...
International audienceWe study rendezvous of two anonymous agents, where each agent knows its own in...
© Springer Nature Switzerland AG 2019. This paper provides a study on the rendezvous problem in whic...
Two mobile agents starting at different nodes of an unknown network have to meet. This task is known...
International audienceWe introduce a variant of the deterministic rendezvous problem for a pair of h...
Abstract. We introduce a variant of the deterministic rendezvous prob-lem for a pair of heterogeneou...
International audienceIn this paper we study the task of approach of two mobile agents having the sa...
International audienceIn this paper, we address the deterministic rendezvous in graphs where k mobil...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
International audienceA pair of agents (robots) are moving in a graph with the goal of meeting at th...
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, ...
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 consider the task of rendezvous in networks modeled as undirected graphs. T...
International audienceIn this paper we study efficient rendezvous of two mobile agents moving asynch...
International audienceWe study rendezvous of two anonymous agents, where each agent knows its own in...
© Springer Nature Switzerland AG 2019. This paper provides a study on the rendezvous problem in whic...
Two mobile agents starting at different nodes of an unknown network have to meet. This task is known...
International audienceWe introduce a variant of the deterministic rendezvous problem for a pair of h...
Abstract. We introduce a variant of the deterministic rendezvous prob-lem for a pair of heterogeneou...
International audienceIn this paper we study the task of approach of two mobile agents having the sa...
International audienceIn this paper, we address the deterministic rendezvous in graphs where k mobil...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
International audienceA pair of agents (robots) are moving in a graph with the goal of meeting at th...