Dexterous movements performed by the human hand are by far more sophisticated than those achieved by current humanoid robotic hands and systems used to control them. This work aims at providing a contribution in order to overcome this gap by proposing a bio-inspired control architecture that captures two key elements underlying human dexterity. The first is the progressive development of skilful control, often starting from – or involving – cyclic movements, based on trial-and-error learning processes and central pattern generators. The second element is the exploitation of a particular kinematic features of the human hand, i.e. the thumb opposition. The architecture is tested with two simulated robotic hands having different kinematic feat...
We present the RBO Hand 3, a highly capable and versatile anthropomorphic soft hand based on pneumat...
From surgery to watchmaking, fine-manipulation skills highly rely on the dexterity afforded by both ...
The human hand provides proof that the anthropomorphic configuration, properly controlled, is succes...
Dexterous movements performed by the human hand are by far more sophisticated than those achieved by...
The human hand's unique biomechanical structure and neuromuscular control combine to produce amazing...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
In recent years, human hand-based robotic hands or dexterous hands have gained attention due to thei...
abstract: Humans' ability to perform fine object and tool manipulation is a defining feature of thei...
This thesis investigates the mechanical design of robot hands to sensibly reduce the system complexi...
Human-object interaction is of great relevance for robots to operate in human environments. However,...
Steffen JF, Elbrechter C, Haschke R, Ritter H. Bio-Inspired Motion Strategies for a Bimanual Manipul...
NOTWITHSTANDING the recent advancements of robotics research, nature still highly outperform robots ...
UnrestrictedHumans are capable of executing a wide variety of complex and dexterous motor behavior w...
There have been numerous attempts to develop anthropomorphic robotic hands with varying levels of de...
We present the RBO Hand 3, a highly capable and versatile anthropomorphic soft hand based on pneumat...
From surgery to watchmaking, fine-manipulation skills highly rely on the dexterity afforded by both ...
The human hand provides proof that the anthropomorphic configuration, properly controlled, is succes...
Dexterous movements performed by the human hand are by far more sophisticated than those achieved by...
The human hand's unique biomechanical structure and neuromuscular control combine to produce amazing...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
In recent years, human hand-based robotic hands or dexterous hands have gained attention due to thei...
abstract: Humans' ability to perform fine object and tool manipulation is a defining feature of thei...
This thesis investigates the mechanical design of robot hands to sensibly reduce the system complexi...
Human-object interaction is of great relevance for robots to operate in human environments. However,...
Steffen JF, Elbrechter C, Haschke R, Ritter H. Bio-Inspired Motion Strategies for a Bimanual Manipul...
NOTWITHSTANDING the recent advancements of robotics research, nature still highly outperform robots ...
UnrestrictedHumans are capable of executing a wide variety of complex and dexterous motor behavior w...
There have been numerous attempts to develop anthropomorphic robotic hands with varying levels of de...
We present the RBO Hand 3, a highly capable and versatile anthropomorphic soft hand based on pneumat...
From surgery to watchmaking, fine-manipulation skills highly rely on the dexterity afforded by both ...
The human hand provides proof that the anthropomorphic configuration, properly controlled, is succes...