Add to ORKGThis report presents the use of independent contact and non-graspable regions to generate the grasp space for 2D and 3D discrete objects. The grasp space is constructed via a sampling method, which provides samples of force-closure or non force-closure grasps, used to compute regions of the graspable or non-graspable space, respectively. The method provides a reliable procedure for an efficient generation of the whole grasp space for n-finger grasps on discrete objects; two examples on 2D objects are provided to illustrate its performance. The approach has several applications in manipulation and regrasping of objects, as it provides a large number of force-closure and non force-closure grasps in a short time
Grasp synthesis on real 3D objects is a critical problem in grasp and manipulation planning. This pa...
We present an algorithm for efficiently generating collision-free force-closure grasps for dexterous...
This paper addresses the problem of synthesizing planar grasps that have force closure. A grasp on a...
This report presents the use of independent contact and non-graspable regions to generate the grasp ...
Abstract — This paper presents an approach for quasi-static regrasp planning using n fingers, taking...
This paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage ...
This paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage ...
Force-closure independent regions are parts of the object edges such that a grasp with a finger in e...
This paper deals with the problem of determining independent contact regions on a 3D object boundary...
This paper deals with the problem of determining independent contact regions on a 3D object boundary...
Exploration of the grasp space using independent contact and non-graspable region
This paper deals with the problem of determining independent contact regions on a 3D object boundary...
Manipulation tasks, in general, require a grasp change on the object during its execution. The manip...
International audienceGrasp planning and most specifically the grasp space exploration when consider...
Independent Contact Regions allow a robust finger placement on the object, despite of potential erro...
Grasp synthesis on real 3D objects is a critical problem in grasp and manipulation planning. This pa...
We present an algorithm for efficiently generating collision-free force-closure grasps for dexterous...
This paper addresses the problem of synthesizing planar grasps that have force closure. A grasp on a...
This report presents the use of independent contact and non-graspable regions to generate the grasp ...
Abstract — This paper presents an approach for quasi-static regrasp planning using n fingers, taking...
This paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage ...
This paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage ...
Force-closure independent regions are parts of the object edges such that a grasp with a finger in e...
This paper deals with the problem of determining independent contact regions on a 3D object boundary...
This paper deals with the problem of determining independent contact regions on a 3D object boundary...
Exploration of the grasp space using independent contact and non-graspable region
This paper deals with the problem of determining independent contact regions on a 3D object boundary...
Manipulation tasks, in general, require a grasp change on the object during its execution. The manip...
International audienceGrasp planning and most specifically the grasp space exploration when consider...
Independent Contact Regions allow a robust finger placement on the object, despite of potential erro...
Grasp synthesis on real 3D objects is a critical problem in grasp and manipulation planning. This pa...
We present an algorithm for efficiently generating collision-free force-closure grasps for dexterous...
This paper addresses the problem of synthesizing planar grasps that have force closure. A grasp on a...