Robot Control and Calibration von Xin Luo | Innovative Control Schemes and Calibration Algorithms | ISBN 9789819957668

Robot Control and Calibration

Innovative Control Schemes and Calibration Algorithms

von Xin Luo, Zhibin Li, Long Jin und Shuai Li
Mitwirkende
Autor / AutorinXin Luo
Autor / AutorinZhibin Li
Autor / AutorinLong Jin
Autor / AutorinShuai Li
Buchcover Robot Control and Calibration | Xin Luo | EAN 9789819957668 | ISBN 981-9957-66-4 | ISBN 978-981-9957-66-8

Robot Control and Calibration

Innovative Control Schemes and Calibration Algorithms

von Xin Luo, Zhibin Li, Long Jin und Shuai Li
Mitwirkende
Autor / AutorinXin Luo
Autor / AutorinZhibin Li
Autor / AutorinLong Jin
Autor / AutorinShuai Li

This book mainly shows readers how to calibrate and control robots. In this regard, it proposes three control schemes: an error-summation enhanced Newton algorithm for model predictive control; RNN for solving perturbed time-varying underdetermined linear systems; and a new joint-drift-free scheme aided with projected ZNN, which can effectively improve robot control accuracy. Moreover, the book develops four advanced algorithms for robot calibration – Levenberg-Marquarelt with diversified regularizations; improved covariance matrix adaptive evolution strategy; quadratic interpolated beetle antennae search algorithm; and a novel variable step-size Levenberg-Marquardt algorithm – which can effectively enhance robot positioning accuracy.

In addition, it is exceedingly difficult for experts in other fields to conduct robot arm calibration studies without calibration data. Thus, this book provides a publicly available dataset to assist researchers from other fields in conductingcalibration experiments and validating their ideas. The book also discusses six regularization schemes based on its robot error models, i. e., L1, L2, dropout, elastic, log, and swish. Robots’ positioning accuracy is significantly improved after calibration. Using the control and calibration methods developed here, readers will be ready to conduct their own research and experiments.