In everyday life humans perform many tasks with other partners which involve coordination, involuntary communication and mutual control adaptation, as the case of carrying objects together with another person. Humanoid robots may help with such activities by collaborating with humans or even substitute them. With this in mind, understanding how humans perform such tasks would be useful not only to better understand human motor control strategies but also to extract useful information for the implementation of robotic controllers. This Thesis aims to investigate if and how the haptic interaction among two subjects cooperating with each other while walking (e.g. while carrying objects) (a) alter their walking gaits, (b) is exploited by human...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
There are more and more robots appearing in factory or our daily life due to development of recent t...
To interact with humans, robots will possess a software architecture much more complete than current...
Abstract—Previous research on social interaction among hu-mans suggested that interpersonal motor co...
This research is aimed at the development of bipedal humanoid robots working in a human living space...
As humanoid robots become more commonplace in our society, it is important to understand the relatio...
Human-Robot Interaction is an interdisciplinary field of study that aims at developping robots able ...
Humans show a great natural ability at interacting with each other. Such efficiency in joint actions...
Previous research on social interaction among humans suggested that interpersonal motor coordination...
Often two people must work together physically on a common task, such as lifting and positioning a l...
Abstract — Joint-action is one of the key research areas in robotics and especially important in phy...
International audienceThe study of human-human interactions is essential for a better understanding ...
International audienceThis paper contributes to the field of physical human-robot collaboration. We ...
<div><p>In spite of extensive studies on human walking, less research has been conducted on human wa...
Humanoid robots provide many advantages when working together with humans to perform various tasks. ...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
There are more and more robots appearing in factory or our daily life due to development of recent t...
To interact with humans, robots will possess a software architecture much more complete than current...
Abstract—Previous research on social interaction among hu-mans suggested that interpersonal motor co...
This research is aimed at the development of bipedal humanoid robots working in a human living space...
As humanoid robots become more commonplace in our society, it is important to understand the relatio...
Human-Robot Interaction is an interdisciplinary field of study that aims at developping robots able ...
Humans show a great natural ability at interacting with each other. Such efficiency in joint actions...
Previous research on social interaction among humans suggested that interpersonal motor coordination...
Often two people must work together physically on a common task, such as lifting and positioning a l...
Abstract — Joint-action is one of the key research areas in robotics and especially important in phy...
International audienceThe study of human-human interactions is essential for a better understanding ...
International audienceThis paper contributes to the field of physical human-robot collaboration. We ...
<div><p>In spite of extensive studies on human walking, less research has been conducted on human wa...
Humanoid robots provide many advantages when working together with humans to perform various tasks. ...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
There are more and more robots appearing in factory or our daily life due to development of recent t...
To interact with humans, robots will possess a software architecture much more complete than current...