International audienceThe purpose of this study is to propose a new tool to define the posture of a complete anthropomorphic arm model during grasping taking into account task and environment constraints. The developed model is based on a neural network architecture mixing both supervised and reinforcement learning. The task constraints are materialized by target points to be reached by the fingertips on the surface of the object to be grasped while environment constraints are represented by obstacles. With no prior information on the shape, position and number of obstacles, the model is able to find a suitable solution according to specified criteria. Simulation results are proposed and commented
Grasping unfamiliar objects (unknown during training) based on limited prior knowledge is a challeng...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
This work presents an innovative approach to a common task on robotics: grasping a set of objects. ...
International audienceThe purpose of this study is to propose a new tool to define the posture of a ...
This paper proposes the use of artificial neural networks (ANNs) in the framework of a biomechanica...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
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...
Autonomous grasping is a key requisite for the autonomy of robots.However, grasping of unknown objec...
Abstract — This paper studies the learning of task constraints that allow grasp generation in a goal...
Abstract — In this work we present a reinforcement learning system for autonomous reaching and grasp...
Anthropomorphic robotic hands are designed to attain dexterous movements and flexibility much like h...
The proposal of postural synergy theory has provided a new approach to solve the problem of controll...
Abstract — Robotic grasping of a target object without advance knowledge of its three-dimensional mo...
Robots are nowadays increasingly required to deal with (partially) unknown tasks and situations. The...
Grasping unfamiliar objects (unknown during training) based on limited prior knowledge is a challeng...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
This work presents an innovative approach to a common task on robotics: grasping a set of objects. ...
International audienceThe purpose of this study is to propose a new tool to define the posture of a ...
This paper proposes the use of artificial neural networks (ANNs) in the framework of a biomechanica...
Industrial automation requires robot dexterity to automate many processes such as product assembling...
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...
Autonomous grasping is a key requisite for the autonomy of robots.However, grasping of unknown objec...
Abstract — This paper studies the learning of task constraints that allow grasp generation in a goal...
Abstract — In this work we present a reinforcement learning system for autonomous reaching and grasp...
Anthropomorphic robotic hands are designed to attain dexterous movements and flexibility much like h...
The proposal of postural synergy theory has provided a new approach to solve the problem of controll...
Abstract — Robotic grasping of a target object without advance knowledge of its three-dimensional mo...
Robots are nowadays increasingly required to deal with (partially) unknown tasks and situations. The...
Grasping unfamiliar objects (unknown during training) based on limited prior knowledge is a challeng...
In this work, a supervised learning strategy has been applied in conjunction with a control strategy...
This work presents an innovative approach to a common task on robotics: grasping a set of objects. ...