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    Predicting Frost Depth of Soils in South Korea Using Machine Learning Techniques

    New search for: Hyun-Jun Choi
    New search for: Sewon Kim
    New search for: YoungSeok Kim
    New search for: Jongmuk Won

    Predicting the frost depth of soils in pavement design is critical to the sustainability of the pavement because of its mechanical vulnerability to frozen-thawed soil. The reliable prediction of frost depth can be challenging due to the high uncertainty of frost depth and the unavailability of geotechnical properties needed to use the available empirical- and analytical-based equations in literature. Therefore, this study proposed a new framework to predict the frost depth of soil below the pavement using eight machine learning (ML) algorithms (five single ML algorithms and three ensemble learning algorithms) without geotechnical properties. Among eight ML models, the hyperparameter-tuned gradient boosting model showed the best performance with the coefficient of determination (R2) = 0.919. Furthermore, it was also shown that the developed ML model can be utilized in the prediction of several levels of frost depth and assessing the sensitivity of pavement-related predictors for predicting the frost depth of soils.

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    Predicting Frost Depth of Soils in South Korea Using Machine Learning Techniques

    New search for: Hyun-Jun Choi
    New search for: Sewon Kim
    New search for: YoungSeok Kim
    New search for: Jongmuk Won

    Predicting the frost depth of soils in pavement design is critical to the sustainability of the pavement because of its mechanical vulnerability to frozen-thawed soil. The reliable prediction of frost depth can be challenging due to the high uncertainty of frost depth and the unavailability of geotechnical properties needed to use the available empirical- and analytical-based equations in literature. Therefore, this study proposed a new framework to predict the frost depth of soil below the pavement using eight machine learning (ML) algorithms (five single ML algorithms and three ensemble learning algorithms) without geotechnical properties. Among eight ML models, the hyperparameter-tuned gradient boosting model showed the best performance with the coefficient of determination (R2) = 0.919. Furthermore, it was also shown that the developed ML model can be utilized in the prediction of several levels of frost depth and assessing the sensitivity of pavement-related predictors for predicting the frost depth of soils.

    Access

    Download

    Predicting Frost Depth of Soils in South Korea Using Machine Learning Techniques

    New search for: Hyun-Jun Choi
    New search for: Sewon Kim
    New search for: YoungSeok Kim
    New search for: Jongmuk Won

    Predicting the frost depth of soils in pavement design is critical to the sustainability of the pavement because of its mechanical vulnerability to frozen-thawed soil. The reliable prediction of frost depth can be challenging due to the high uncertainty of frost depth and the unavailability of geotechnical properties needed to use the available empirical- and analytical-based equations in literature. Therefore, this study proposed a new framework to predict the frost depth of soil below the pavement using eight machine learning (ML) algorithms (five single ML algorithms and three ensemble learning algorithms) without geotechnical properties. Among eight ML models, the hyperparameter-tuned gradient boosting model showed the best performance with the coefficient of determination (R2) = 0.919. Furthermore, it was also shown that the developed ML model can be utilized in the prediction of several levels of frost depth and assessing the sensitivity of pavement-related predictors for predicting the frost depth of soils.

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    Title:

    Predicting Frost Depth of Soils in South Korea Using Machine Learning Techniques

    Contributors:

    Hyun-Jun Choi (author) / Sewon Kim (author) / YoungSeok Kim (author) / Jongmuk Won (author)

    Published in:

    Sustainability, Vol 14, Iss 15, p 9767 (2022)

    Publication date:

    2022

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su14159767

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    frost depth , frozen-thawed , pavement , machine learning , hyperparameter , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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