In a recent French robotic contest, the objective was to develop a multi-robot system able to autonomously map and explore an unknown area while also detecting and localizing objects. As a participant in this challenge, we proposed a new decentralized Markov decision process (Dec-MDP) resolution based on distributed value functions (DVF) to compute multi-robot exploration strategies. The idea is to take advantage of sparse interactions by allowing each robot to calculate locally a strategy that maximizes the explored space while minimizing robots interactions. In this paper, we propose an adaptation of this method to improve also object recognition by integrating into the DVF the interest in covering explored areas with photos. The robots w...
International audienceIn this paper, an approach is presented to automatically allocate a set of exp...
We present a decentralized cooperative exploration strategy for mobile robots. A roadmap of the expl...
This paper proposes a simple and uniform, decentralized approach to the problem of dispersing a team...
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 audienceThis paper addresses the problem of exploring an unknown area with a team of a...
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...
International audienceRecent works on multi-agent sequential decision mak- ing using decentralized p...
International audienceOptimizing the operation of cooperative multi-robot systems that can cooperati...
International audienceThis paper presents a novel decentralized control strategy for a multi-robot s...
A fundamental task of robotic systems is to use on-board sensors and perception algorithms to unders...
The work presented in this thesis aims to implement a fleet of robots to explore an open and crowded...
© The Author(s) 2018. We propose a decentralized variant of Monte Carlo tree search (MCTS) that is s...
International audienceIn this paper, an approach is presented to automatically allocate a set of exp...
We present a decentralized cooperative exploration strategy for mobile robots. A roadmap of the expl...
This paper proposes a simple and uniform, decentralized approach to the problem of dispersing a team...
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 audienceThis paper addresses the problem of exploring an unknown area with a team of a...
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...
International audienceRecent works on multi-agent sequential decision mak- ing using decentralized p...
International audienceOptimizing the operation of cooperative multi-robot systems that can cooperati...
International audienceThis paper presents a novel decentralized control strategy for a multi-robot s...
A fundamental task of robotic systems is to use on-board sensors and perception algorithms to unders...
The work presented in this thesis aims to implement a fleet of robots to explore an open and crowded...
© The Author(s) 2018. We propose a decentralized variant of Monte Carlo tree search (MCTS) that is s...
International audienceIn this paper, an approach is presented to automatically allocate a set of exp...
We present a decentralized cooperative exploration strategy for mobile robots. A roadmap of the expl...
This paper proposes a simple and uniform, decentralized approach to the problem of dispersing a team...