International audienceSUMMARY Forward kinematics is essential in robot control. Its resolution remains a challenge for continuum manipulators because of their inherent flexibility. Learning-based approaches allow obtaining accurate models. However, they suffer from the explosion of the learning database that wears down the manipulator during data collection. This paper proposes an approach that combines the model and learning-based approaches. The learning database is derived from analytical equations to prevent the robot from operating for long periods. The database obtained is handled using Deep Neural Networks (DNNs). The Compact Bionic Handling robot serves as an experimental platform. The comparison with existing approaches gives satis...
The kinematic mapping between human arm motions and anthropomorphic manipulators are introduced to t...
This paper focuses on an accuracy enhancement method for a cable-driven continuum robot with a flexi...
This thesis addresses the modeling and sensing of concentric tube continuum robots from a data-drive...
International audienceSUMMARY Forward kinematics is essential in robot control. Its resolution remai...
International audienceCompact Bionic Handling Assistant (CBHA) is a continuum manipulator, with pneu...
International audienceInverse Kinematic Model (IKM) is very crucial for real-time control of a robot...
In this paper, neural networks are presented to solve the inverse kinematic models of continuum robo...
International audience—This paper deals with a methodology for a real-time solving of a complex kine...
As any mechanism ages it will undergo structural change. In an autonomous system that operates outsi...
This article introduces a machine-learning-based approach for closed loop kinematic control of conti...
Recently, the human-like behavior on anthropomorphic robot manipulators are increasingly accomplishe...
This paper introduces a machine learning based approach for closed loop kinematic control of continu...
The foundation and emphasis of robotic manipulator control is Inverse Kinematics (IK). Due to the co...
The characteristic compliance of soft/continuum robot manipulators entails them with the desirable f...
Robot Kinematics and Control has been a vital part in studying the motion of the robot manipulator. ...
The kinematic mapping between human arm motions and anthropomorphic manipulators are introduced to t...
This paper focuses on an accuracy enhancement method for a cable-driven continuum robot with a flexi...
This thesis addresses the modeling and sensing of concentric tube continuum robots from a data-drive...
International audienceSUMMARY Forward kinematics is essential in robot control. Its resolution remai...
International audienceCompact Bionic Handling Assistant (CBHA) is a continuum manipulator, with pneu...
International audienceInverse Kinematic Model (IKM) is very crucial for real-time control of a robot...
In this paper, neural networks are presented to solve the inverse kinematic models of continuum robo...
International audience—This paper deals with a methodology for a real-time solving of a complex kine...
As any mechanism ages it will undergo structural change. In an autonomous system that operates outsi...
This article introduces a machine-learning-based approach for closed loop kinematic control of conti...
Recently, the human-like behavior on anthropomorphic robot manipulators are increasingly accomplishe...
This paper introduces a machine learning based approach for closed loop kinematic control of continu...
The foundation and emphasis of robotic manipulator control is Inverse Kinematics (IK). Due to the co...
The characteristic compliance of soft/continuum robot manipulators entails them with the desirable f...
Robot Kinematics and Control has been a vital part in studying the motion of the robot manipulator. ...
The kinematic mapping between human arm motions and anthropomorphic manipulators are introduced to t...
This paper focuses on an accuracy enhancement method for a cable-driven continuum robot with a flexi...
This thesis addresses the modeling and sensing of concentric tube continuum robots from a data-drive...