Add to ORKGMulti-robot systems have substantially increased capabilities over single-robot systems and can handle very large or peculiar objects. This paper presents a differential (incremental) motion planning algorithm for an m-robot system (m >or=2) to cooperatively transfer an object from an initial to a desired final position / orientation by rigidly holding it at given respective points Q[sub 1], Q[sub 2],..., Q[sub m]. One of the robots plays the role of a "master" while other robots operate in the "slave" mode maintaining invariant their relative positions and orientations during the system motion. The method employs the differential displacements of the end-effector of each robot arm. Then, the differential displacements of the joints of the ...
We consider the problem of planning point-to-point motion for general robotic systems subject to non...
In this thesis we develop optimal trajectory planning algorithms for cooperative multi-manipulator s...
Industrial applications demand that robots operate in agreement with the position and orientation of...
Abstract. After a brief review of the current research on multi-robot systems, the paper presents a ...
This thesis addresses the problem of motion planning for cooperative robotic systems. The problem of...
Abstract: This paper presents a motion planning algorithm for a mobile robot equipped with...
In order to achieve cooperation of multi-robots simultaneously, this paper presents an approach of T...
This paper is concerned with the problems of inter-arm coordination which arise when multiple robot ...
International audienceThis paper addresses the motion planning problem for a robot in presence of mo...
The coordinator of the movements of multiple robot arms manipulating a common object is considered. ...
In this paper a task-oriented motion planning approach for general cooperative multi-robot systems i...
A multi-robot system is a system containing multiple robots which are moving around a given environm...
This paper formulates a new scalable algorithm for motion planning and control of multiple point-mas...
For the synthesis of manipulators and robots, an accurate analysis of the movements of the individua...
This thesis addresses the problem of motion planning for cooperative robotic systems. The problem of...
We consider the problem of planning point-to-point motion for general robotic systems subject to non...
In this thesis we develop optimal trajectory planning algorithms for cooperative multi-manipulator s...
Industrial applications demand that robots operate in agreement with the position and orientation of...
Abstract. After a brief review of the current research on multi-robot systems, the paper presents a ...
This thesis addresses the problem of motion planning for cooperative robotic systems. The problem of...
Abstract: This paper presents a motion planning algorithm for a mobile robot equipped with...
In order to achieve cooperation of multi-robots simultaneously, this paper presents an approach of T...
This paper is concerned with the problems of inter-arm coordination which arise when multiple robot ...
International audienceThis paper addresses the motion planning problem for a robot in presence of mo...
The coordinator of the movements of multiple robot arms manipulating a common object is considered. ...
In this paper a task-oriented motion planning approach for general cooperative multi-robot systems i...
A multi-robot system is a system containing multiple robots which are moving around a given environm...
This paper formulates a new scalable algorithm for motion planning and control of multiple point-mas...
For the synthesis of manipulators and robots, an accurate analysis of the movements of the individua...
This thesis addresses the problem of motion planning for cooperative robotic systems. The problem of...
We consider the problem of planning point-to-point motion for general robotic systems subject to non...
In this thesis we develop optimal trajectory planning algorithms for cooperative multi-manipulator s...
Industrial applications demand that robots operate in agreement with the position and orientation of...