Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected graph, have to meet at some node of the graph. We seek fast deterministic algorithms for this rendezvous problem, under two scenarios: simultaneous startup, when both agents start executing the algorithm at the same time, and arbitrary startup, when starting times of the agents are arbitrarily decided by an adversary. The measure of performance of a rendezvous algorithm is its cost: for a given initial location of agents in a graph, this is the number of steps since the startup of the later agent until rendezvous is achieved. We first show that rendezvous can be completed at cost O(n + log l) on any n-node tree, where l is the smaller of the...
International audienceWe study the problem of rendezvous of two mobile agents starting at distinct l...
International audienceIn this paper, we address the deterministic rendezvous of mobile agents into a...
International audienceTwo mobile agents, starting from different nodes of an unknown network, have t...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
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...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
AbstractA set of k mobile agents with distinct identifiers and located in nodes of an unknown anonym...
International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. T...
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 address the deterministic rendezvous in graphs where k mobil...
The aim of rendezvous in a graph is meeting of two mobile agents at some node of an unknown anonymou...
International audienceThe aim of rendezvous in a graph is meeting of two mobile agents at some node ...
International audienceWe study the problem of rendezvous of two mobile agents starting at distinct l...
International audienceIn this paper, we address the deterministic rendezvous of mobile agents into a...
International audienceTwo mobile agents, starting from different nodes of an unknown network, have t...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
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...
Two mobile agents having distinct identifiers and located in nodes of an unknown anonymous connected...
AbstractA set of k mobile agents with distinct identifiers and located in nodes of an unknown anonym...
International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. T...
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 address the deterministic rendezvous in graphs where k mobil...
The aim of rendezvous in a graph is meeting of two mobile agents at some node of an unknown anonymou...
International audienceThe aim of rendezvous in a graph is meeting of two mobile agents at some node ...
International audienceWe study the problem of rendezvous of two mobile agents starting at distinct l...
International audienceIn this paper, we address the deterministic rendezvous of mobile agents into a...
International audienceTwo mobile agents, starting from different nodes of an unknown network, have t...