Prediction of compaction parameters for fine-grained soil: Critical comparison of the deep learning and standalone models
Author:
Publisher
Elsevier BV
Subject
Geotechnical Engineering and Engineering Geology
Reference137 articles.
1. Prediction of ultimate bearing capacity of shallow foundations on cohesionless soils: a Gaussian process regression approach;Ahmad;Appl. Sci.,2021
2. Prediction of liquefaction-induced lateral displacements using Gaussian process regression;Ahmad;Appl. Sci.,2022
3. Novel approach to predicting soil permeability coefficient using Gaussian process regression;Ahmad;Sustainability,2022
4. Prediction of maximum dry density and optimum moisture content of stabilised soil using RBF neural networks;Alavi;IES J Part A Civil Struct. Eng.,2009
5. Simple regression models to estimate the standard and modified Proctor characteristics of specific compacted fine-grained soil;Arama;Proceedings of the 7th World Congress on Civil, Structural, and Environmental Engineering (CSEE'22),2022
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