Add to ORKGComputation of friction forces between fingers and object for a given external force is important in grasp planning. Based on the required friction forces, the magnitudes of the grasping forces can be adjusted in order to avoid slippage of the object between fingers. A new method is presented for computing the friction forces between the fingertips of a dexterous mechanical hand and the object. Finger-tips are modelled so they are able to exert normal forces and are making point contact with friction with the object. The method of this paper utilizes the geometrical information on the grasp configuration, screw geometry and biorthogonal system. Unlike the method proposed by (Holzmann and McCarthy 85), the method of this paper does not invol...
An important issue in controlling a multi-fingered robotic hand grasping an object is the evaluation...
An important issue in controlling a multi-fingered robotic hand grasping an object is the evaluation...
Most available methods that predict the forces necessary to grasp an arbitrary object treat the obje...
When grasping an object using three fingered end-effectors, a certain geometrical entity can be crea...
Abstract—In this paper, we present a novel algorithm for computing three-finger force-closure grasps...
This paper deals with the problems of grasp planning and force computation that occur when objects h...
Currently, the design of many robotics hands integrates soft pads as mechanical interface between fi...
The objective of this paper is to simulate the human hand when grasping an object, considering the a...
Manipulation of the grasped object is defined as the ability of the mechanical endeffector to create...
This paper attempts to quantify the trade-offs that exist among the number of fingers, coefficient o...
International audienceThis paper presents a model-based strategy for 3D deformable object grasping u...
This paper presents a method for building analytical contact models for soft fingers. Friction const...
The problem of the appropriate distribution of forces among the fingers of a four-fingered robot han...
The aim of this work is to show a novel environment to simulate and calculate the forces exerted in ...
Fingertip contact forces are of utmost importance in evaluating the quality of the human grasp. Howe...
An important issue in controlling a multi-fingered robotic hand grasping an object is the evaluation...
An important issue in controlling a multi-fingered robotic hand grasping an object is the evaluation...
Most available methods that predict the forces necessary to grasp an arbitrary object treat the obje...
When grasping an object using three fingered end-effectors, a certain geometrical entity can be crea...
Abstract—In this paper, we present a novel algorithm for computing three-finger force-closure grasps...
This paper deals with the problems of grasp planning and force computation that occur when objects h...
Currently, the design of many robotics hands integrates soft pads as mechanical interface between fi...
The objective of this paper is to simulate the human hand when grasping an object, considering the a...
Manipulation of the grasped object is defined as the ability of the mechanical endeffector to create...
This paper attempts to quantify the trade-offs that exist among the number of fingers, coefficient o...
International audienceThis paper presents a model-based strategy for 3D deformable object grasping u...
This paper presents a method for building analytical contact models for soft fingers. Friction const...
The problem of the appropriate distribution of forces among the fingers of a four-fingered robot han...
The aim of this work is to show a novel environment to simulate and calculate the forces exerted in ...
Fingertip contact forces are of utmost importance in evaluating the quality of the human grasp. Howe...
An important issue in controlling a multi-fingered robotic hand grasping an object is the evaluation...
An important issue in controlling a multi-fingered robotic hand grasping an object is the evaluation...
Most available methods that predict the forces necessary to grasp an arbitrary object treat the obje...