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Improving the Interpretability of Data-Driven Models for Additive Manufacturing Processes Using Clusterwise Regression

Author

Listed:
  • Giulio Mattera

    (Department of Chemical, Materials and Production Engineering, University of Naples “Federico II”, 80125 Naples, Italy)

  • Gianfranco Piscopo

    (Department of Mathematics and Applications “Renato Caccioppoli”, University of Naples “Federico II”, 80125 Naples, Italy)

  • Maria Longobardi

    (Department of Mathematics and Applications “Renato Caccioppoli”, University of Naples “Federico II”, 80125 Naples, Italy)

  • Massimiliano Giacalone

    (Department of Economics, University of Campania “Luigi Vanvitelli”, 81043 Capua, CE, Italy)

  • Luigi Nele

    (Department of Chemical, Materials and Production Engineering, University of Naples “Federico II”, 80125 Naples, Italy)

Abstract

Wire Arc Additive Manufacturing (WAAM) represents a disruptive technology in the field of metal additive manufacturing. Understanding the relationship between input factors and layer geometry is crucial for studying the process comprehensively and developing various industrial applications such as slicing software and feedforward controllers. Statistical tools such as clustering and multivariate polynomial regression provide methods for exploring the influence of input factors on the final product. These tools facilitate application development by helping to establish interpretable models that engineers can use to grasp the underlying physical phenomena without resorting to complex physical models. In this study, an experimental campaign was conducted to print steel components using WAAM technology. Advanced statistical methods were employed for mathematical modeling of the process. The results obtained using linear regression, polynomial regression, and a neural network optimized using the Tree-structured Parzen Estimator (TPE) were compared. To enhance performance while maintaining the interpretability of regression models, clusterwise regression was introduced as an alternative modeling technique along with multivariate polynomial regression. The results showed that the proposed approach achieved results comparable to neural network modeling, with a Mean Absolute Error (MAE) of 0.25 mm for layer height and 0.68 mm for layer width compared to 0.23 mm and 0.69 mm with the neural network. Notably, this approach preserves the interpretability of the models; a further discussion on this topic is presented as well.

Suggested Citation

  • Giulio Mattera & Gianfranco Piscopo & Maria Longobardi & Massimiliano Giacalone & Luigi Nele, 2024. "Improving the Interpretability of Data-Driven Models for Additive Manufacturing Processes Using Clusterwise Regression," Mathematics, MDPI, vol. 12(16), pages 1-18, August.
  • Handle: RePEc:gam:jmathe:v:12:y:2024:i:16:p:2559-:d:1459302
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    References listed on IDEAS

    as
    1. Roy Cerqueti & Massimiliano Giacalone & Raffaele Mattera, 2020. "Skewed non-Gaussian GARCH models for cryptocurrencies volatility modelling," Papers 2004.11674, arXiv.org.
    2. Roy Cerqueti & M. Giacalone & R. Mattera, 2021. "Model-based fuzzy time series clustering of conditional higher moments," Post-Print hal-03789115, HAL.
    3. Mahmoud Moradi & Mojtaba Karamimoghadam & Saleh Meiabadi & Giuseppe Casalino & Mohammad Ghaleeh & Bobymon Baby & Harikrishna Ganapathi & Jomal Jose & Muhammed Shahzad Abdulla & Paul Tallon & Mahmoud S, 2023. "Mathematical Modelling of Fused Deposition Modeling (FDM) 3D Printing of Poly Vinyl Alcohol Parts through Statistical Design of Experiments Approach," Mathematics, MDPI, vol. 11(13), pages 1-14, July.
    4. Massimiliano Giacalone & Demetrio Panarello & Raffaele Mattera, 2018. "Multicollinearity in regression: an efficiency comparison between Lp-norm and least squares estimators," Quality & Quantity: International Journal of Methodology, Springer, vol. 52(4), pages 1831-1859, July.
    5. Hooti, Fatemeh & Ahmadi, Jafar & Longobardi, Maria, 2020. "Optimal extended warranty length with limited number of repairs in the warranty period," Reliability Engineering and System Safety, Elsevier, vol. 203(C).
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