A long-lasting goal of robotics research is to operate robots safely, while achieving high performance which often involves fast motions. Traditional motor-driven systems frequently struggle to balance these competing demands. Addressing this trade-off is crucial for advancing fields such as manufacturing and healthcare, where seamless collaboration between robots and humans is essential. We introduce a four degree-of-freedom (DoF) tendon-driven robot arm, powered by pneumatic artificial muscles (PAMs), to tackle this challenge. Our new design features low friction, passive compliance, and inherent impact resilience, enabling rapid, precise, high-force, and safe interactions during dynamic tasks. In addition to fostering safer human-robot c...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility and dexterity...
Physical human–robot interaction implies the intersection of human and robot workspaces and intrinsi...
A significant barrier regarding a successful im- plementation of fenceless robot cells into manufac...
A long-lasting goal of robotics research is to operate robots safely, while achieving high performan...
Humans have since long desired to be assisted by robotic systems in productive and home environments...
Today's robots are capable of performing many tasks that tremendously improve human lives. For insta...
This dissertation presents an approach toward development of a serially connected robotic arm meant ...
The human arm is capable of performing fast targeted movements with high precision, say in pointing ...
The work described in this thesis focusses on designing and building two novel physical devices in a...
Ultra lightweight tendon driven series elastic robots exhibit unique high safety features based on v...
Applications with physical human-robot interaction require a high level of safety even in case of so...
This paper presents a novel human-like learning controller to interact with unknown environments. S...
When robots work together with a human or contact with a human body directly in such as a medical we...
As a consequence of the wide adoption of co-bots, the demand for robots that could provide dexterous...
This paper introduces a tendon-driven continuum mechanism platform for research on design, modeling,...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility and dexterity...
Physical human–robot interaction implies the intersection of human and robot workspaces and intrinsi...
A significant barrier regarding a successful im- plementation of fenceless robot cells into manufac...
A long-lasting goal of robotics research is to operate robots safely, while achieving high performan...
Humans have since long desired to be assisted by robotic systems in productive and home environments...
Today's robots are capable of performing many tasks that tremendously improve human lives. For insta...
This dissertation presents an approach toward development of a serially connected robotic arm meant ...
The human arm is capable of performing fast targeted movements with high precision, say in pointing ...
The work described in this thesis focusses on designing and building two novel physical devices in a...
Ultra lightweight tendon driven series elastic robots exhibit unique high safety features based on v...
Applications with physical human-robot interaction require a high level of safety even in case of so...
This paper presents a novel human-like learning controller to interact with unknown environments. S...
When robots work together with a human or contact with a human body directly in such as a medical we...
As a consequence of the wide adoption of co-bots, the demand for robots that could provide dexterous...
This paper introduces a tendon-driven continuum mechanism platform for research on design, modeling,...
Soft robot arms possess unique capabilities when it comes to adaptability, flexibility and dexterity...
Physical human–robot interaction implies the intersection of human and robot workspaces and intrinsi...
A significant barrier regarding a successful im- plementation of fenceless robot cells into manufac...