Add to ORKGThis paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage of a method that quickly explores the grasp space for discrete objects. The approach relies on 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 regrasp contact points generated assure that a force-closure grasp is always possible when performing the regrasp motions. Application examples are included to show the relevance of the results.Peer Reviewe
In this paper, we propose a new method for the motion planning problem of rigid object dexterous man...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
This paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage ...
Abstract — This paper presents an approach for quasi-static regrasp planning using n fingers, taking...
Manipulation tasks, in general, require a grasp change on the object during its execution. The manip...
Abstract — This paper proposes an algorithm for regrasp planning of 2D and 3D discrete objects, such...
This paper proposes an algorithm for regrasp planning of 2D and 3D discrete objects, such that the r...
This paper proposes an algorithm for regrasp planning of 2D and 3D discrete objects, such that the r...
This report presents the use of independent contact and non-graspable regions to generate the grasp ...
This report presents the use of independent contact and non-graspable regions to generate the grasp ...
Independent Contact Regions allow a robust finger placement on the object, despite of potential erro...
Abstract:- This paper presents a method to solve the regrasping problem in the context of object man...
Force-closure independent regions are parts of the object edges such that a grasp with a finger in e...
Abstract — This paper proposes an approach for computing a sequence of finger repositioning that all...
In this paper, we propose a new method for the motion planning problem of rigid object dexterous man...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
This paper presents an approach for quasi-static regrasp planning using n fingers, taking advantage ...
Abstract — This paper presents an approach for quasi-static regrasp planning using n fingers, taking...
Manipulation tasks, in general, require a grasp change on the object during its execution. The manip...
Abstract — This paper proposes an algorithm for regrasp planning of 2D and 3D discrete objects, such...
This paper proposes an algorithm for regrasp planning of 2D and 3D discrete objects, such that the r...
This paper proposes an algorithm for regrasp planning of 2D and 3D discrete objects, such that the r...
This report presents the use of independent contact and non-graspable regions to generate the grasp ...
This report presents the use of independent contact and non-graspable regions to generate the grasp ...
Independent Contact Regions allow a robust finger placement on the object, despite of potential erro...
Abstract:- This paper presents a method to solve the regrasping problem in the context of object man...
Force-closure independent regions are parts of the object edges such that a grasp with a finger in e...
Abstract — This paper proposes an approach for computing a sequence of finger repositioning that all...
In this paper, we propose a new method for the motion planning problem of rigid object dexterous man...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...