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Improvement of Heavy Load Robot Positioning Accuracy by Combining a Model-Based Identification for Geometric Parameters and an Optimized Neural Network for the Compensation of Nongeometric Errors

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  • Yuxiang Wang
  • Zhangwei Chen
  • Hongfei Zu
  • Xiang Zhang
  • Chentao Mao
  • Zhirong Wang

Abstract

The positioning accuracy of a robot is of great significance in advanced robotic manufacturing systems. This paper proposes a novel calibration method for improving robot positioning accuracy. First of all, geometric parameters are identified on the basis of the product of exponentials (POE) formula. The errors of the reduction ratio and the coupling ratio are identified at the same time. Then, joint stiffness identification is carried out by adding a load to the end-effector. Finally, residual errors caused by nongeometric parameters are compensated by a multilayer perceptron neural network (MLPNN) based on beetle swarm optimization algorithm. The calibration is implemented on a SIASUN SR210D robot manipulator. Results show that the proposed method possesses better performance in terms of faster convergence and higher precision.

Suggested Citation

  • Yuxiang Wang & Zhangwei Chen & Hongfei Zu & Xiang Zhang & Chentao Mao & Zhirong Wang, 2020. "Improvement of Heavy Load Robot Positioning Accuracy by Combining a Model-Based Identification for Geometric Parameters and an Optimized Neural Network for the Compensation of Nongeometric Errors," Complexity, Hindawi, vol. 2020, pages 1-13, January.
    • Handle: RePEc:hin:complx:5896813
    DOI: 10.1155/2020/5896813
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