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XGBoost-Based Digital Twin Model for Predicting Trajectory Errors in a Hexapod Coordinated Machining System Using

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Summary

This study presents a digital twin for predicting robotic machining errors using ballbar and vibration data. The XGBoost model achieved micrometer-level accuracy, enabling practical compensation for improved part quality.

Keywords:
XGBoostdigital twinhexapod coordinated machining systempositioning accuracytrajectory errorsvibration

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Area of Science:

  • Robotics and Manufacturing
  • Data-Driven Modeling
  • Metrology

Background:

  • Dynamic errors in robotic machining reduce part quality, especially in flexible systems prone to disturbances.
  • Accurate prediction of these errors is crucial for maintaining high-precision manufacturing.

Purpose of the Study:

  • To develop a data-driven digital twin for predicting circular trajectory errors in hexapod machining cells.
  • To utilize a compact sensor configuration combining ballbar and vibration data for error prediction.

Main Methods:

  • Synchronized processing of ballbar deviations, acceleration data, and CMM profiles.
  • Feature engineering using sliding-window vibration statistics and ballbar path error.
  • Machine learning models (XGBoost, MLP, Random Forest) for pointwise error prediction.

Main Results:

  • XGBoost model achieved micrometer-level accuracy (RMSE ~5 µm, R² > 0.80) on unseen data.
  • The model demonstrated near-complete coverage within a ±20 µm tolerance band.
  • Hybrid feature sets combining ballbar data and vibration descriptors maintained high predictive accuracy.

Conclusions:

  • The data-driven digital twin effectively predicts circular trajectory errors in robotic machining.
  • Ballbar path error is key for geometric error, while vibration data captures dynamic aspects.
  • The approach enables practical offline compensation for enhanced part quality.