The task of handling non-rigid one-dimensional objects by a robot manipulation system is investigated. Especially, approaches to calculate motions with specific behavior in point contacts between the object and environment are regarded. For single point contacts, motions based on generalized rotations solving the direct and inverse manipulation problem are investigated. The latter problem is additionally tackled by simple rotation and translation motions. For double and multiple point contacts, motions based on Splines are suggested. In experimental results with steel springs, the predicted and measured effect for each approach are compared
There is an increasing use of computers in the design, manufacture and manipulation of physical obj...
During manipulation and locomotion tasks encountered in robotics it is often necessary to control t...
The primary goal of this research is to develop theoretical tools for analysis, synthesis, applicati...
The task of handling non-rigid one-dimensional objects by a robot manipulation system is investigate...
Besides the work in the field of manipulating rigid objects, currently, there are several research a...
Abstract—We consider the manipulation planning problem of a Deformable Linear Object (DLO) in free o...
In many mobile robotic manipulation tasks it is desirable to interact with the robots surroundings w...
Abstract. In this chapter, the quantitative numerical simulation of the behavior of deformable linea...
In the context of robot manipulation, Salisbury's taxonomy is the common standard used to define the...
I would like to dedicate this thesis to my loving family and to moja bebica. Traditionally, robots a...
summary:In this paper the control of robotic manipulation is investigated. Manipulation system analy...
The problem of manipulating objects which are relatively larger than the size of the manipulators is...
International audienceIn the grasping and manipulation of 3D deformable objects by robotic hands, th...
The problems of modeling and control of mechanical dynamic systems subject to rolling contacts are i...
Abstract A good model of the mechanics of a task is a resource for a robot, just as actuators and se...
There is an increasing use of computers in the design, manufacture and manipulation of physical obj...
During manipulation and locomotion tasks encountered in robotics it is often necessary to control t...
The primary goal of this research is to develop theoretical tools for analysis, synthesis, applicati...
The task of handling non-rigid one-dimensional objects by a robot manipulation system is investigate...
Besides the work in the field of manipulating rigid objects, currently, there are several research a...
Abstract—We consider the manipulation planning problem of a Deformable Linear Object (DLO) in free o...
In many mobile robotic manipulation tasks it is desirable to interact with the robots surroundings w...
Abstract. In this chapter, the quantitative numerical simulation of the behavior of deformable linea...
In the context of robot manipulation, Salisbury's taxonomy is the common standard used to define the...
I would like to dedicate this thesis to my loving family and to moja bebica. Traditionally, robots a...
summary:In this paper the control of robotic manipulation is investigated. Manipulation system analy...
The problem of manipulating objects which are relatively larger than the size of the manipulators is...
International audienceIn the grasping and manipulation of 3D deformable objects by robotic hands, th...
The problems of modeling and control of mechanical dynamic systems subject to rolling contacts are i...
Abstract A good model of the mechanics of a task is a resource for a robot, just as actuators and se...
There is an increasing use of computers in the design, manufacture and manipulation of physical obj...
During manipulation and locomotion tasks encountered in robotics it is often necessary to control t...
The primary goal of this research is to develop theoretical tools for analysis, synthesis, applicati...