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Machine learning and design of experiments with an application to product innovation in the chemical industry

Author

Listed:
  • Rosa Arboretti
  • Riccardo Ceccato
  • Luca Pegoraro
  • Luigi Salmaso
  • Chris Housmekerides
  • Luca Spadoni
  • Elisabetta Pierangelo
  • Sara Quaggia
  • Catherine Tveit
  • Sebastiano Vianello

Abstract

Industrial statistics plays a major role in the areas of both quality management and innovation. However, existing methodologies must be integrated with the latest tools from the field of Artificial Intelligence. To this end, a background on the joint application of Design of Experiments (DOE) and Machine Learning (ML) methodologies in industrial settings is presented here, along with a case study from the chemical industry. A DOE study is used to collect data, and two ML models are applied to predict responses which performance show an advantage over the traditional modeling approach. Emphasis is placed on causal investigation and quantification of prediction uncertainty, as these are crucial for an assessment of the goodness and robustness of the models developed. Within the scope of the case study, the models learned can be implemented in a semi-automatic system that can assist practitioners who are inexperienced in data analysis in the process of new product development.

Suggested Citation

  • Rosa Arboretti & Riccardo Ceccato & Luca Pegoraro & Luigi Salmaso & Chris Housmekerides & Luca Spadoni & Elisabetta Pierangelo & Sara Quaggia & Catherine Tveit & Sebastiano Vianello, 2022. "Machine learning and design of experiments with an application to product innovation in the chemical industry," Journal of Applied Statistics, Taylor & Francis Journals, vol. 49(10), pages 2674-2699, July.
  • Handle: RePEc:taf:japsta:v:49:y:2022:i:10:p:2674-2699
    DOI: 10.1080/02664763.2021.1907840
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    Cited by:

    1. Roberto Fontana & Alberto Molena & Luca Pegoraro & Luigi Salmaso, 2023. "Design of experiments and machine learning with application to industrial experiments," Statistical Papers, Springer, vol. 64(4), pages 1251-1274, August.

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