© Springer Nature Switzerland AG 2019. This paper provides a study on the rendezvous problem in which two anonymous mobile entities referred to as robots rA and rB are asked to meet at an arbitrary node of a graph G = (V,E). As opposed to more standard assumptions robots may not be able to visit the entire graph G. Namely, each robot has its own map which is a connected subgraph of G. Such mobility restrictions may be dictated by the topological properties combined with the intrinsic characteristics of robots preventing them from visiting certain edges in E. We consider four different variants of the rendezvous problem introduced in [Farrugia et al. SOFSEM’15] which reflect on restricted maneuverability and navigation ability of rA and rB i...
International audienceIn this paper we study efficient rendezvous of two mobile agents moving asynch...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses on the C...
Two anonymous robots placed at different positions on an infinite line need to rendezvous. Each robo...
AbstractTwo mobile agents (robots) having distinct labels and located in nodes of an unknown anonymo...
Two mobile agents (robots) having distinct labels and located in nodes of an unknown anonymous conne...
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 audienceA pair of agents (robots) are moving in a graph with the goal of meeting at th...
Volume dedicated to the Workshop on Search and Rendezvous that took place in May 2012 in Lorentz Cen...
International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. T...
International audienceWe study rendezvous of two anonymous agents, where each agent knows its own in...
We consider the problem of rendezvous between two robots exploring an unknown environment. That is, ...
International audienceTwo mobile agents (robots) have to meet in an a priori unknown bounded terrain...
International audienceIn this paper we study efficient rendezvous of two mobile agents moving asynch...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses on the C...
Two anonymous robots placed at different positions on an infinite line need to rendezvous. Each robo...
AbstractTwo mobile agents (robots) having distinct labels and located in nodes of an unknown anonymo...
Two mobile agents (robots) having distinct labels and located in nodes of an unknown anonymous conne...
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 audienceA pair of agents (robots) are moving in a graph with the goal of meeting at th...
Volume dedicated to the Workshop on Search and Rendezvous that took place in May 2012 in Lorentz Cen...
International audienceWe consider the task of rendezvous in networks modeled as undirected graphs. T...
International audienceWe study rendezvous of two anonymous agents, where each agent knows its own in...
We consider the problem of rendezvous between two robots exploring an unknown environment. That is, ...
International audienceTwo mobile agents (robots) have to meet in an a priori unknown bounded terrain...
International audienceIn this paper we study efficient rendezvous of two mobile agents moving asynch...
Considering autonomous mobile robots moving on a finite anonymous graph, this paper focuses on the C...
Two anonymous robots placed at different positions on an infinite line need to rendezvous. Each robo...