Add to ORKGWe present a distributed planar object manipulation algorithm inspired by human behavior. The system, which we call pusher-watcher, enables the cooperative manipulation of large objects by teams of autonomous mobile robots. The robots are not equipped with gripping devices, but instead move objects by pushing against them. The pusher robots have no global positioning information, and cannot see over the object; thus a watcher robot has the responsibility for leading the team (and object) to the goal, which only it can perceive. The system is entirely distributed, with each robot under local control. Through the use of MURDOCH, an auction-based resource-centric general purpose task-allocation framework, roles in the team are automatically as...
This paper takes first steps towards allowing robots to use their knowledge of the coordination to a...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
In near future, robots are envisioned to work alongside humans in professional anddomestic environme...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
We describe a framework and control algorithms for coordinating multiple mobile robots with manipula...
We address the manipulation of planar objects by multiple cooperating mobile robots using the concep...
Based on constrain and move concept, a new algorithm CCM (complex Constrain and Move) is proposed to...
In [Don4], we described a manipulation task for cooperating mobile robots that can push large, heav...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
This paper presents a market-based approach for multi-robot cooperation. The approach uses auctionee...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
Abstract This paper presents a novel multi-robot manipulation algorithm which al-lows a large number...
This paper addresses the problem of collaborative manipulation of an object performed by a group of ...
International audienceCooperative manipulation is a basic skill in groups of humans, animals , and i...
This paper proposes a distributed algorithm for cooperatively manipulating an object rigidly grasped...
This paper takes first steps towards allowing robots to use their knowledge of the coordination to a...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
In near future, robots are envisioned to work alongside humans in professional anddomestic environme...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
We describe a framework and control algorithms for coordinating multiple mobile robots with manipula...
We address the manipulation of planar objects by multiple cooperating mobile robots using the concep...
Based on constrain and move concept, a new algorithm CCM (complex Constrain and Move) is proposed to...
In [Don4], we described a manipulation task for cooperating mobile robots that can push large, heav...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
This paper presents a market-based approach for multi-robot cooperation. The approach uses auctionee...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
Abstract This paper presents a novel multi-robot manipulation algorithm which al-lows a large number...
This paper addresses the problem of collaborative manipulation of an object performed by a group of ...
International audienceCooperative manipulation is a basic skill in groups of humans, animals , and i...
This paper proposes a distributed algorithm for cooperatively manipulating an object rigidly grasped...
This paper takes first steps towards allowing robots to use their knowledge of the coordination to a...
This research addresses the problem of achieving fault tolerant cooperation within small- to medium-...
In near future, robots are envisioned to work alongside humans in professional anddomestic environme...