Machine Learning-Based Estimation of Soil’s True Air-Entry Value from GSD Curves

Article

Es-haghi, M. S., Rezania, M. and Bagheri, M. 2023. Machine Learning-Based Estimation of Soil’s True Air-Entry Value from GSD Curves . Gondwana Research. 123, pp. 280-292. https://doi.org/10.1016/j.gr.2022.06.012
AuthorsEs-haghi, M. S., Rezania, M. and Bagheri, M.
Abstract

The application of machine learning (ML) methods has proven to be promising in dealing with a wide range of geotechnical engineering problems in recent years. ML methods have already been used for the prediction of soil water retention curves (SWRC) and estimation of air-entry values (AEV). However, the reported works in the literature are generally based on limited data and conventional, less accurate approaches for AEV estimation. In this paper, a large database, known as UNsaturated SOil hydraulic DAtabase (UNSODA), is studied and the conventional and true AEVs of 790 soil samples are estimated based on determination methods reported in the literature. A ML approach is then employed for the development of a predictive model for the estimation of true AEV from water content-based SWRCs of a wide range of soil types taking into account the impact of bulk density and grain size distribution parameters. The obtained results reveal an enhanced accuracy in AEV determination, featuring R2 values of 0.964, 0.901 and 0.851 for training, validation, and testing data, respectively, which confirm the marked performance of the developed ML model. Based on the results of a sensitivity analysis, the particle sizes of 50 and 250 µm are found to have the highest impact on the AEV estimation.

KeywordsAir-entry value; Soil water retention; Grain size distribution; Machine learning
JournalGondwana Research
Journal citation123, pp. 280-292
ISSN1342-937X
Year2023
PublisherElsevier
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Anyone
Digital Object Identifier (DOI)https://doi.org/10.1016/j.gr.2022.06.012
Publication dates
Online27 Jun 2022
Print10 Oct 2023
Publication process dates
Accepted22 Jun 2022
Deposited20 Feb 2024
FunderEuropean Commission: Research Fund for Coal and Steal
Copyright holder© 2022, The Authors
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