Robot calibration is to improve the accuracy of the robot model so as to achieve better positioning accuracy within the robot work cell. Model based calibration approaches are in general limited to compensating for geometric errors and are unable to compensate for error sources that do not fit within the proposed robot model. In order to compensate for the unmodeled error sources, a Radial Basis Function (RBF) Neural Network (NN) augmented robot model is proposed together with a two stage calibration process for training the NN. A simulation and an experimental study are conducted to verify the effectiveness of the proposed solution
This study addresses the problem of nonlinear error predictive compensation to achieve high position...
With the increasing involvement of industrial robots in manufacturing processes, the demand for high...
This work describes techniques for modeling, optimizing and simulating calibration processes ofrobot...
The paper presents a preliminary study on the feasibility of a Neural Networks based methodology fo...
Modeless industrial robot calibration plays an impor-tant role in the increasing employment of robot...
The positioning accuracy of a robot is of great significance in advanced robotic manufacturing syste...
Robot calibration is critical for industrial robot applications that require high accuracy. This pap...
This paper presents a calibration method for serial robots to improve pose accuracy. In this method,...
Due to the rising demand for individualized product specifications and short product innovation cycl...
It is well known that most of the industrial robots have excellent repeatability in positioning. How...
Part 12: Nature Inspired Flight and Robot Control - Machine VisionInternational audienceThis paper d...
Many approaches have been developed to solve the hand–eye calibration problem. The traditional appro...
In this study, a manipulator calibration algorithm is suggested to decrease the positional errors of...
In order to improve the measurement accuracy of three-dimensional (3D) scanning robot, a method of 3...
Abstract- In order to improve the measurement accuracy of three-dimensional (3D) scanning robot, a m...
This study addresses the problem of nonlinear error predictive compensation to achieve high position...
With the increasing involvement of industrial robots in manufacturing processes, the demand for high...
This work describes techniques for modeling, optimizing and simulating calibration processes ofrobot...
The paper presents a preliminary study on the feasibility of a Neural Networks based methodology fo...
Modeless industrial robot calibration plays an impor-tant role in the increasing employment of robot...
The positioning accuracy of a robot is of great significance in advanced robotic manufacturing syste...
Robot calibration is critical for industrial robot applications that require high accuracy. This pap...
This paper presents a calibration method for serial robots to improve pose accuracy. In this method,...
Due to the rising demand for individualized product specifications and short product innovation cycl...
It is well known that most of the industrial robots have excellent repeatability in positioning. How...
Part 12: Nature Inspired Flight and Robot Control - Machine VisionInternational audienceThis paper d...
Many approaches have been developed to solve the hand–eye calibration problem. The traditional appro...
In this study, a manipulator calibration algorithm is suggested to decrease the positional errors of...
In order to improve the measurement accuracy of three-dimensional (3D) scanning robot, a method of 3...
Abstract- In order to improve the measurement accuracy of three-dimensional (3D) scanning robot, a m...
This study addresses the problem of nonlinear error predictive compensation to achieve high position...
With the increasing involvement of industrial robots in manufacturing processes, the demand for high...
This work describes techniques for modeling, optimizing and simulating calibration processes ofrobot...