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Short-Wave Infrared Spectroscopy for On-Site Discrimination of Hazardous Mineral Fibers Using Machine Learning Techniques

Author

Listed:
  • Giuseppe Bonifazi

    (Department of Chemical Engineering, Materials and Environment (DICMA), Sapienza University of Rome, Via Eudossiana 18, 00185 Roma, Italy)

  • Sergio Bellagamba

    (Department of New Technologies for Occupational Safety of Industrial Plants, Products and Human Settlements (Dit), Inail (Italian Workers’ Compensation Authority-Research Division), Via R. Ferruzzi 38/40, 00143 Roma, Italy)

  • Giuseppe Capobianco

    (Department of Chemical Engineering, Materials and Environment (DICMA), Sapienza University of Rome, Via Eudossiana 18, 00185 Roma, Italy)

  • Riccardo Gasbarrone

    (Research and Service Center for Sustainable Technological Innovation (Ce.R.S.I.Te.S.), Sapienza University of Rome, Via XXIV Maggio 7, 04100 Latina, Italy)

  • Ivano Lonigro

    (Research and Service Center for Sustainable Technological Innovation (Ce.R.S.I.Te.S.), Sapienza University of Rome, Via XXIV Maggio 7, 04100 Latina, Italy)

  • Sergio Malinconico

    (Department of New Technologies for Occupational Safety of Industrial Plants, Products and Human Settlements (Dit), Inail (Italian Workers’ Compensation Authority-Research Division), Via R. Ferruzzi 38/40, 00143 Roma, Italy)

  • Federica Paglietti

    (Department of New Technologies for Occupational Safety of Industrial Plants, Products and Human Settlements (Dit), Inail (Italian Workers’ Compensation Authority-Research Division), Via R. Ferruzzi 38/40, 00143 Roma, Italy)

  • Silvia Serranti

    (Department of Chemical Engineering, Materials and Environment (DICMA), Sapienza University of Rome, Via Eudossiana 18, 00185 Roma, Italy)

Abstract

Asbestos fibers are well-known carcinogens, and their rapid detection is critical for ensuring safety, protecting public health, and promoting environmental sustainability. In this work, short-wave infrared (SWIR) spectroscopy, combined with machine learning (ML), was evaluated as an environmentally friendly analytical approach for simultaneously distinguishing the asbestos type, asbestos-containing materials in various forms, asbestos-contaminated/-uncontaminated soil, and asbestos-contaminated/-uncontaminated cement, simultaneously. This approach offers a noninvasive and efficient alternative to traditional laboratory methods, aligning with sustainable practices by reducing hazardous waste generation and enabling in situ testing. Different chemometrics techniques were applied to discriminate the material classes. In more detail, partial least squares discriminant analysis (PLS-DA), principal component analysis-based discriminant analysis (PCA-DA), principal component analysis-based K-nearest neighbors classification (PCA-KNN), classification and regression trees (CART), and error-correcting output-coding support vector machine (ECOC SVM) classifiers were tested. The tested classifiers showed different performances in discriminating between the analyzed samples. CART and ECOC SVM performed best ( R e c a l l M and A c c u r a c y M equal to 1.00), followed by PCA-KNN ( R e c a l l M of 0.98–1.00 and A c c u r a c y M equal to 1.00). Poorer performances were obtained by PLS-DA ( R e c a l l M of 0.68–0.72 and A c c u r a c y M equal to 0.95) and PCA-DA ( R e c a l l M of 0.66–0.70 and A c c u r a c y M equal to 0.95). This research aligns with the United Nations’ Sustainable Development Goals (SDGs), particularly SDG 3 (Good Health and Well-Being), by enhancing human health protection through advanced asbestos detection methods, and SDG 12 (Responsible Consumption and Production), by promoting sustainable, low-waste testing methodologies.

Suggested Citation

  • Giuseppe Bonifazi & Sergio Bellagamba & Giuseppe Capobianco & Riccardo Gasbarrone & Ivano Lonigro & Sergio Malinconico & Federica Paglietti & Silvia Serranti, 2025. "Short-Wave Infrared Spectroscopy for On-Site Discrimination of Hazardous Mineral Fibers Using Machine Learning Techniques," Sustainability, MDPI, vol. 17(3), pages 1-31, January.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:3:p:972-:d:1576648
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