Add to ORKGAn efficient, adaptive neural learning paradigm for addressing the inverse kinematics of redundant manipulators is presented. The proposed methodology exploits the infinite local stability of terminal attractors - a new class of mathematical constructs which provide unique information processing capabilities to artificial neural systems. For robotic applications, synaptic elements of such networks can rapidly acquire the kinematic invariances embedded within the presented samples. Subsequently, joint-space configurations, required to follow arbitrary end-effector trajectories, can readily be computed. In a significant departure from prior neuromorphic learning algorithms, this methodology provides mechanisms for incorporating an in-training...
A fundamental function of robotic manipulators is to let the end-effector precisely follow the traj...
Redundancy in robots is very much an open research area in the field of robotics. As the tasks requi...
Inverse Kinematics (IK) solves the problem of mapping from the Cartesian space to the joint configur...
In order to overcome the drawbacks of some control schemes, which depends on modeling the system be...
A redundant manipulator can be defined as a manipulator that has more degrees of freedom than necess...
Learning an inverse kinematic model of a robot is a well studied subject. However, achieving this wi...
Learning an inverse kinematic model of a robot is a well studied subject. However, achieving this wi...
Solving the analytical inverse kinematics (IK) of redundant manipulators in real time is a difficult...
In this paper, Multilayer Feedforward Networks are applied to the robot inverse kinematic problem. T...
Wrede S, Johannfunke M, Lemme A, et al. Interactive Learning of Inverse Kinematics with Nullspace Co...
Learning an inverse kinematic model of a robot is a well studied subject. However, achieving this wi...
Two neural learning controller designs for manipulators are considered. The first design is based on...
Reinhart F, Steil JJ. Neural learning and dynamical selection of redundant solutions for inverse kin...
A fundamental function of robotic manipulators is to let the end-effector precisely follow the traj...
Neural networks with their inherent learning ability have been widely applied to solve the robot man...
A fundamental function of robotic manipulators is to let the end-effector precisely follow the traj...
Redundancy in robots is very much an open research area in the field of robotics. As the tasks requi...
Inverse Kinematics (IK) solves the problem of mapping from the Cartesian space to the joint configur...
In order to overcome the drawbacks of some control schemes, which depends on modeling the system be...
A redundant manipulator can be defined as a manipulator that has more degrees of freedom than necess...
Learning an inverse kinematic model of a robot is a well studied subject. However, achieving this wi...
Learning an inverse kinematic model of a robot is a well studied subject. However, achieving this wi...
Solving the analytical inverse kinematics (IK) of redundant manipulators in real time is a difficult...
In this paper, Multilayer Feedforward Networks are applied to the robot inverse kinematic problem. T...
Wrede S, Johannfunke M, Lemme A, et al. Interactive Learning of Inverse Kinematics with Nullspace Co...
Learning an inverse kinematic model of a robot is a well studied subject. However, achieving this wi...
Two neural learning controller designs for manipulators are considered. The first design is based on...
Reinhart F, Steil JJ. Neural learning and dynamical selection of redundant solutions for inverse kin...
A fundamental function of robotic manipulators is to let the end-effector precisely follow the traj...
Neural networks with their inherent learning ability have been widely applied to solve the robot man...
A fundamental function of robotic manipulators is to let the end-effector precisely follow the traj...
Redundancy in robots is very much an open research area in the field of robotics. As the tasks requi...
Inverse Kinematics (IK) solves the problem of mapping from the Cartesian space to the joint configur...