首页 /研究 /Artificial Neural Network Guided Compensation of Nonlinear Payload and Wear Effects for Industrial Robots
LEARNING

Artificial Neural Network Guided Compensation of Nonlinear Payload and Wear Effects for Industrial Robots

Julian Raible, Oliver Rettig, Benjamin Alt, Alper Yaman, Isabelle Gauger, Lorenzo Biasi, Silvan Müller, Darko Katić, Marcus Strand, Marco F. Huber

发表年份
2023
引用次数
2

摘要

The absolute accuracy of industrial robots is influ-enced by numerous geometric and non-geometric errors. Most state-of-the-art calibration and compensation methods consider only the geometric errors and neglect the non-geometric ones. In this paper, a hybrid compensation approach is proposed that combines well-known kinematic models with a model-free data-driven component using a neural network. This allows the use of established calibration methods for the geometric influences captured in the kinematic model to improve the non-geometric error compensation by the neural network. The proposed approach is applied in two use cases: payload and wear compensation. Simulations and real experiments show the improved absolute accuracy of the hybrid compensation approach compared to classical calibration methods.

关键词

Compensation (psychology)Payload (computing)Artificial neural networkCalibrationKinematicsRobotComputer scienceNonlinear systemCompensation methodsArtificial intelligence

相关论文

查看 LEARNING 分类全部论文