To enable a robotic assistant to autonomously reach for and transport objects while avoiding obstacles we have generalized the attractor dynamics approach established for vehicles to trajectory formation in robot arms. This approach is able to deal with the time-varying environments that occur when a human operator moves in a shared workspace. Stable fixed-points (attractors) for the heading direction of the end-effector shift during movement and are being tracked by the system. This enables the attractor dynamics aoproach to avoid the spurious states that hamper potential field methods. Separating planning and control computationally, the approach is also simpler to implement. The stability properties of the movement plan enable to approac...
Abstract In this chapter we describe recent progress towards autonomousmanipula-tion of environment ...
Dynamical systems theory is used here as a theoret-ical language and tool to design a distributed co...
With the rapid development of robot perception and planning technology, robots are gradually getting...
To enable a robotic assistant to autonomously reach for and transport objects while avoiding obstacl...
We extend the attractor dynamics approach to generate goal-directed movement of a redundant, anthrop...
Generating flexible collision-free reaching move- ments is a standard task for autonomous articu...
For autonomous robots to manipulate objects in unknown environments, they must be able to move their...
Motion planning of robotic arms in a cluttered environment is a computationally challenging task esp...
We show how non-linear attractor dynamics can be used to implement robot formations in unknown envir...
In this paper, a method for direct trajectory generation for robotic manipulators is proposed. The m...
A fundamental problem in robotics is the generation of motion for a task. How to translate a task to...
While progress in many fields of robotics has been swift, robot arm movementin scenarios without con...
Abstract. Humanoid robots have a large number of “extra ” joints, organized in a humanlike fashion w...
This paper presents a generic method for optimal motion planning for 2D and 3D multi-link robotic ma...
Abstract – To enable floating robots to autonomously reach for a target position while avoiding obst...
Abstract In this chapter we describe recent progress towards autonomousmanipula-tion of environment ...
Dynamical systems theory is used here as a theoret-ical language and tool to design a distributed co...
With the rapid development of robot perception and planning technology, robots are gradually getting...
To enable a robotic assistant to autonomously reach for and transport objects while avoiding obstacl...
We extend the attractor dynamics approach to generate goal-directed movement of a redundant, anthrop...
Generating flexible collision-free reaching move- ments is a standard task for autonomous articu...
For autonomous robots to manipulate objects in unknown environments, they must be able to move their...
Motion planning of robotic arms in a cluttered environment is a computationally challenging task esp...
We show how non-linear attractor dynamics can be used to implement robot formations in unknown envir...
In this paper, a method for direct trajectory generation for robotic manipulators is proposed. The m...
A fundamental problem in robotics is the generation of motion for a task. How to translate a task to...
While progress in many fields of robotics has been swift, robot arm movementin scenarios without con...
Abstract. Humanoid robots have a large number of “extra ” joints, organized in a humanlike fashion w...
This paper presents a generic method for optimal motion planning for 2D and 3D multi-link robotic ma...
Abstract – To enable floating robots to autonomously reach for a target position while avoiding obst...
Abstract In this chapter we describe recent progress towards autonomousmanipula-tion of environment ...
Dynamical systems theory is used here as a theoret-ical language and tool to design a distributed co...
With the rapid development of robot perception and planning technology, robots are gradually getting...