International audienceThis paper addresses the problem of exploring an unknown area with a team of autonomous robots using decentralized decision making techniques. The localization aspect is not considered and it is assumed the robots share their positions and have access to a map updated with all explored areas. A key problem is then the coordination of decentralized decision processes: each individual robot must choose appropriate exploration goals so that the team simultaneously explores different locations of the environment. We formalize this problem as a Decentralized Markov Decision Process (Dec- MDP) solved as a set of individual MDPs, where interactions between MDPs are considered in a distributed value function. Thus each robot c...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
This paper proposes a simple and uniform, decentralized approach to the problem of dispersing a team...
International audienceIn this paper, an approach is presented to automatically allocate a set of exp...
International audienceThis paper addresses the problem of exploring an unknown area with a team of a...
International audienceIn this paper, we propose an approach based on an interaction-oriented resolut...
In a recent French robotic contest, the objective was to develop a multi-robot system able to autono...
International audienceIn a recent French robotic contest, the objective was to develop a multi-robot...
International audienceIn a recent French robotic contest, the objective was to develop a multi-robot...
International audienceRecent works on multi-agent sequential decision mak- ing using decentralized p...
In a recent French robotic contest, the objective was to develop a multi-robot system able to autono...
International audienceCoordination is required in order to solve a multi robot navigation problem an...
International audienceWe consider in this paper a multi-robot planning system where robots realize a...
International audienceOptimizing the operation of cooperative multi-robot systems that can cooperati...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
This paper proposes a simple and uniform, decentralized approach to the problem of dispersing a team...
International audienceIn this paper, an approach is presented to automatically allocate a set of exp...
International audienceThis paper addresses the problem of exploring an unknown area with a team of a...
International audienceIn this paper, we propose an approach based on an interaction-oriented resolut...
In a recent French robotic contest, the objective was to develop a multi-robot system able to autono...
International audienceIn a recent French robotic contest, the objective was to develop a multi-robot...
International audienceIn a recent French robotic contest, the objective was to develop a multi-robot...
International audienceRecent works on multi-agent sequential decision mak- ing using decentralized p...
In a recent French robotic contest, the objective was to develop a multi-robot system able to autono...
International audienceCoordination is required in order to solve a multi robot navigation problem an...
International audienceWe consider in this paper a multi-robot planning system where robots realize a...
International audienceOptimizing the operation of cooperative multi-robot systems that can cooperati...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
We describe a probabilistic framework for synthesizing con-trol policies for general multi-robot sys...
This paper proposes a simple and uniform, decentralized approach to the problem of dispersing a team...
International audienceIn this paper, an approach is presented to automatically allocate a set of exp...