Grasp should be selected intelligently to fulfill different stability properties and manipulative requirements. Currently, most grasping approaches consider only pick-and-place tasks without any physical interaction with other objects or the environment, which are common in an industry setting with limited uncertainty. When robots move to our daily-living environment and perform a broad range of tasks in an unstructured environment, all sorts of physical interactions will occur, which will result in random physical interactive wrenches: forces and torques on the tool. In addition, for a tool to perform a required task, certain motions need to occur. We call it functional tool motion, which represents the innate function of the tool and th...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
Many robot object interactions require that an object is firmly held, and that the grasp remains sta...
Humans display extraordinary ability in grasping and manipulating objects even in extremely complex ...
Grasp should be selected intelligently to fulfill different stability properties and manipulative re...
This paper presents a novel robot grasping planning approach that extracts grasp strategies (grasp t...
In this paper, we discuss information that is beneficial to robotic grasp planning and can be extrac...
Several aspects have to be addressed before realizing the dream of a robotic hand-arm system with hu...
This paper addresses the problem of optimal grasping of an object with a multi-fingered robotic hand...
This paper addresses the problem of jointly planning both grasps and subsequent manipulative actions...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
Traditional approaches in grasping consider separately the planning of contact points and forces. Th...
This thesis investigates the questions of where to grasp and how to grasp a given object with an art...
Although the grasp-task interplay in our daily life is unquestionable, very little research has addr...
Automatic grasp planning for robotic hands is a difficult problem because of the huge number of poss...
This paper presents an algorithm for automatic planning of robot grasping motions that are insensiti...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
Many robot object interactions require that an object is firmly held, and that the grasp remains sta...
Humans display extraordinary ability in grasping and manipulating objects even in extremely complex ...
Grasp should be selected intelligently to fulfill different stability properties and manipulative re...
This paper presents a novel robot grasping planning approach that extracts grasp strategies (grasp t...
In this paper, we discuss information that is beneficial to robotic grasp planning and can be extrac...
Several aspects have to be addressed before realizing the dream of a robotic hand-arm system with hu...
This paper addresses the problem of optimal grasping of an object with a multi-fingered robotic hand...
This paper addresses the problem of jointly planning both grasps and subsequent manipulative actions...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
Traditional approaches in grasping consider separately the planning of contact points and forces. Th...
This thesis investigates the questions of where to grasp and how to grasp a given object with an art...
Although the grasp-task interplay in our daily life is unquestionable, very little research has addr...
Automatic grasp planning for robotic hands is a difficult problem because of the huge number of poss...
This paper presents an algorithm for automatic planning of robot grasping motions that are insensiti...
International audienceThis paper presents a simple grasp planning method for a multi-fingered hand. ...
Many robot object interactions require that an object is firmly held, and that the grasp remains sta...
Humans display extraordinary ability in grasping and manipulating objects even in extremely complex ...