We study self-organized cooperation between heterogeneous robotic swarms. The robots of each swarm play distinct roles based on their different characteristics. We investigate how the use of simple local interactions between the robots of the different swarms can let the swarms cooperate in order to solve complex tasks. We focus on an indoor navigation task, in which we use a swarm of wheeled robots, called foot-bots, and a swarm of flying robots that can attach to the ceiling, called eye-bots. The task of the foot-bots is to move back and forth between a source and a target location. The role of the eye-bots is to guide foot-bots: they choose positions at the ceiling and from there give local directional instructions to foot-bots passing b...
Groups of robots can solve problems in fundamentally different ways than individuals while achieving...
We study cooperative navigation for robotic swarms in the context of a general event-servicing scena...
In this paper, we introduce a self-assembling and self-organizing artifact, called a swarm-bot, comp...
We study a situation where a swarm of wheeled robots, the foot-bots, is deployed in an indoor enviro...
Abstract. We consider a heterogeneous swarm robotic system com-posed of wheeled and aerial robots ca...
In this work, we introduce a swarm robotic system, called a swarm-bot. A swarm-bot is a self-assembl...
Abstract—We present a cooperative navigation algorithm for robotic swarms. Its purpose is to let a r...
In this paper, we study coordinated motion in a swarm robotic system, called a swarm-bot. A swarm-bo...
Abstract—We present a communication based navigation algorithm for robotic swarms. It lets robots gu...
In swarm robotics, the control of a group of robots is often fully distributed and does not rely on ...
This paper presents a novel flocking strategy for a large-scale swarm of robots that enables the rob...
International audienceIn this presentation we consider complex systems composed of numerous autonomo...
Cooperation is a key concept used in multi-robot systems for performing complex tasks. In swarm robo...
In this thesis, we investigate the problem of path formation and prey retrieval in a swarm of robots...
© Springer International Publishing Switzerland 2013. In flocking, a large number of individuals mov...
Groups of robots can solve problems in fundamentally different ways than individuals while achieving...
We study cooperative navigation for robotic swarms in the context of a general event-servicing scena...
In this paper, we introduce a self-assembling and self-organizing artifact, called a swarm-bot, comp...
We study a situation where a swarm of wheeled robots, the foot-bots, is deployed in an indoor enviro...
Abstract. We consider a heterogeneous swarm robotic system com-posed of wheeled and aerial robots ca...
In this work, we introduce a swarm robotic system, called a swarm-bot. A swarm-bot is a self-assembl...
Abstract—We present a cooperative navigation algorithm for robotic swarms. Its purpose is to let a r...
In this paper, we study coordinated motion in a swarm robotic system, called a swarm-bot. A swarm-bo...
Abstract—We present a communication based navigation algorithm for robotic swarms. It lets robots gu...
In swarm robotics, the control of a group of robots is often fully distributed and does not rely on ...
This paper presents a novel flocking strategy for a large-scale swarm of robots that enables the rob...
International audienceIn this presentation we consider complex systems composed of numerous autonomo...
Cooperation is a key concept used in multi-robot systems for performing complex tasks. In swarm robo...
In this thesis, we investigate the problem of path formation and prey retrieval in a swarm of robots...
© Springer International Publishing Switzerland 2013. In flocking, a large number of individuals mov...
Groups of robots can solve problems in fundamentally different ways than individuals while achieving...
We study cooperative navigation for robotic swarms in the context of a general event-servicing scena...
In this paper, we introduce a self-assembling and self-organizing artifact, called a swarm-bot, comp...