As robots are starting to become part of our daily lives, they must be able to cooperate in a natural and efficient manner with humans to be socially accepted. Human-like morphology and motion are often considered key features for intuitive human-robot interactions because they allow human peers to easily predict the final intention of a robotic movement. Here, we present a novel motion planning algorithm, the Human-like Upper-limb Motion Planner, for the upper limb of anthropomorphic robots, that generates collision-free trajectories with human-like characteristics. Mainly inspired from established theories of human motor control, the planning process takes into account a task-dependent hierarchy of spatial and postural constraints modelle...
The recent increasing demands on accomplishing complicated manipulation tasks necessitate the develo...
Human-likeness is an important step to ensure safety and acceptability of human-robot interaction. T...
The goal of this thesis is to develop motion planning algorithms for human-like figures that take in...
As robots are starting to become part of our daily lives, they must be able to cooperate in a natura...
Concurrent advancements in mechanical design and motion planning algorithms allow state-of-the-art h...
BACKGROUND: Human-likeliness of robot movements is a key component to enable a safe and effective hu...
International audienceNew generations of humanoid robots are becoming more faithful copies of the hu...
Abstract In this article we address the planning problem of whole-body motions by humanoid robots. T...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Humanoid robotics is coming of age with faster and more agile robots. To compliment the physical com...
Abstract. Proposed movement-planning strategies from the field of human motor control are examined f...
Human-like motion is often considered a key feature for intuitive human-robot interactions. In fact,...
NOTWITHSTANDING the recent advancements of robotics research, nature still highly outperform robots ...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
This paper addresses the problem of obtaining the required motions for a humanoid robot to perform g...
The recent increasing demands on accomplishing complicated manipulation tasks necessitate the develo...
Human-likeness is an important step to ensure safety and acceptability of human-robot interaction. T...
The goal of this thesis is to develop motion planning algorithms for human-like figures that take in...
As robots are starting to become part of our daily lives, they must be able to cooperate in a natura...
Concurrent advancements in mechanical design and motion planning algorithms allow state-of-the-art h...
BACKGROUND: Human-likeliness of robot movements is a key component to enable a safe and effective hu...
International audienceNew generations of humanoid robots are becoming more faithful copies of the hu...
Abstract In this article we address the planning problem of whole-body motions by humanoid robots. T...
Thanks to their human-like structure, humanoid robots have the potential for accomplishing complex t...
Humanoid robotics is coming of age with faster and more agile robots. To compliment the physical com...
Abstract. Proposed movement-planning strategies from the field of human motor control are examined f...
Human-like motion is often considered a key feature for intuitive human-robot interactions. In fact,...
NOTWITHSTANDING the recent advancements of robotics research, nature still highly outperform robots ...
The paper deals with the problem of motion planning of anthropomorphic mechanical hands avoiding col...
This paper addresses the problem of obtaining the required motions for a humanoid robot to perform g...
The recent increasing demands on accomplishing complicated manipulation tasks necessitate the develo...
Human-likeness is an important step to ensure safety and acceptability of human-robot interaction. T...
The goal of this thesis is to develop motion planning algorithms for human-like figures that take in...