Humanoid robots are foreseen to be soon part of our daily life, often interacting with humans. For this reason, several control architectures have been developed to address ergonomic physical human-robot interaction. However, the robot hardware design is yet to be considered as an element that can be optimized with respect to the collaborative task. This work presents a framework allowing to consider hardware parameters considering both hardware and ergonomic specific constraints. The proposed methodology is validated on the iCub humanoid robot considering the different scenario of payload lifting tasks
Abstract — Lifting heavy objects poses a unique challenge for humanoid robots and more broadly, for ...
<div>Physical Human Robot Interaction is an</div><div>expanding field in robotics. Part of this expa...
Within the scope of the EURECA project (https://cordis.europa.eu/project/id/738039) we investigate h...
Humanoid robots are foreseen to be soon part of our daily life, often interacting with humans. For t...
International audienceCollaborative robotics is a possible solution to the problem of musculoskeleta...
International audienceThe growing number of musculoskeletal disorders in industry could be addressed...
In this work, we present a novel control approach to human-robot collaboration that takes into accou...
International audienceThis paper contributes to the field of physical human-robot collaboration. We ...
This paper presents a method to incorporate ergonomics into the optimization of action sequences for...
The simulation possibilities of Human Industrial Robot Collaboration (HIRC) are limited in commercia...
The simulation possibilities of Human Industrial Robot Collaboration (HIRC) are limited in commercia...
With the development of humanoid robots, lightweight construction and energy efficiency play an impo...
International audienceWork-related musculoskeletal disorders in industry represent a major health pr...
Lifting heavy objects poses a unique challenge for humanoid robots and more broadly, for any robot w...
For a human operator, lifting and carrying a load can be a hazardous task with significant health-re...
Abstract — Lifting heavy objects poses a unique challenge for humanoid robots and more broadly, for ...
<div>Physical Human Robot Interaction is an</div><div>expanding field in robotics. Part of this expa...
Within the scope of the EURECA project (https://cordis.europa.eu/project/id/738039) we investigate h...
Humanoid robots are foreseen to be soon part of our daily life, often interacting with humans. For t...
International audienceCollaborative robotics is a possible solution to the problem of musculoskeleta...
International audienceThe growing number of musculoskeletal disorders in industry could be addressed...
In this work, we present a novel control approach to human-robot collaboration that takes into accou...
International audienceThis paper contributes to the field of physical human-robot collaboration. We ...
This paper presents a method to incorporate ergonomics into the optimization of action sequences for...
The simulation possibilities of Human Industrial Robot Collaboration (HIRC) are limited in commercia...
The simulation possibilities of Human Industrial Robot Collaboration (HIRC) are limited in commercia...
With the development of humanoid robots, lightweight construction and energy efficiency play an impo...
International audienceWork-related musculoskeletal disorders in industry represent a major health pr...
Lifting heavy objects poses a unique challenge for humanoid robots and more broadly, for any robot w...
For a human operator, lifting and carrying a load can be a hazardous task with significant health-re...
Abstract — Lifting heavy objects poses a unique challenge for humanoid robots and more broadly, for ...
<div>Physical Human Robot Interaction is an</div><div>expanding field in robotics. Part of this expa...
Within the scope of the EURECA project (https://cordis.europa.eu/project/id/738039) we investigate h...