In this work, a supervised learning strategy has been applied in conjunction with a control strategy to provide anthropomorphic hand-arm systems with autonomous grasping capabilities. Both learning and control algorithms have been developed in a synergy-basedframework in order to address issues related to high dimension of the configuration space, that typically characterizes robotic hands and arms with humanlike kinematics. An experimental setup has been built to learn hand-arm motion from humans during reaching and grasping tasks. Then, a Neural Network (NN) has been realized to generalize the grasps learned by imitation. Since the NN approximates the relationship between the object characteristics and the grasp configuration of the hand-...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
Anthropomorphic robotic hands are designed to attain dexterous movements and flexibility much like h...
none4noThe aim of this paper is to derive the synergies subspace of an anthropomorphic robotic hand ...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
In this work, a synergy-based reinforcement learning algorithm has been developed to confer autonom...
The proposal of postural synergy theory has provided a new approach to solve the problem of controll...
In this paper, a system for transferring human grasping skills to a robot is presented. In order to ...
The scientific goal of HANDS.DVI consists of developing a common framework to programming robotic h...
Soft hands are robotic systems that embed compliant elements in their mechanical design. This enable...
Soft hands are robotic systems that embed compliant elements in their mechanical design. This enable...
This paper presents an autonomous grasping approach for complex-shaped objects using an anthropomorp...
Soft hands are robotic systems that embed compliant elements in their mechanical design. This enable...
Dexterous movements performed by the human hand are by far more sophisticated than those achieved by...
Dexterous movements performed by the human hand are by far more sophisticated than those achieved by...
One of the main challenges in the field of robotics is to build machines that can function intellige...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
Anthropomorphic robotic hands are designed to attain dexterous movements and flexibility much like h...
none4noThe aim of this paper is to derive the synergies subspace of an anthropomorphic robotic hand ...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
In this work, a synergy-based reinforcement learning algorithm has been developed to confer autonom...
The proposal of postural synergy theory has provided a new approach to solve the problem of controll...
In this paper, a system for transferring human grasping skills to a robot is presented. In order to ...
The scientific goal of HANDS.DVI consists of developing a common framework to programming robotic h...
Soft hands are robotic systems that embed compliant elements in their mechanical design. This enable...
Soft hands are robotic systems that embed compliant elements in their mechanical design. This enable...
This paper presents an autonomous grasping approach for complex-shaped objects using an anthropomorp...
Soft hands are robotic systems that embed compliant elements in their mechanical design. This enable...
Dexterous movements performed by the human hand are by far more sophisticated than those achieved by...
Dexterous movements performed by the human hand are by far more sophisticated than those achieved by...
One of the main challenges in the field of robotics is to build machines that can function intellige...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
Anthropomorphic robotic hands are designed to attain dexterous movements and flexibility much like h...
none4noThe aim of this paper is to derive the synergies subspace of an anthropomorphic robotic hand ...