Enhancing Ultimate Bearing Capacity Prediction of Cohesionless Soils Beneath Shallow Foundations with Grey Box and Hybrid AI Models
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- @Article{kiany:2023:Algorithms,
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author = "Katayoon Kiany and Abolfazl Baghbani and
Hossam Abuel-Naga and Hasan Baghbani and Mahyar Arabani and
Mohammad Mahdi Shalchian",
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title = "Enhancing Ultimate Bearing Capacity Prediction of
Cohesionless Soils Beneath Shallow Foundations with
Grey Box and Hybrid {AI} Models",
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journal = "Algorithms",
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year = "2023",
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volume = "16",
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number = "10",
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pages = "Article No. 456",
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keywords = "genetic algorithms, genetic programming",
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ISSN = "1999-4893",
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URL = "https://www.mdpi.com/1999-4893/16/10/456",
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DOI = "doi:10.3390/a16100456",
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abstract = "This study examines the potential of the soft
computing technique, namely, multiple linear regression
(MLR), genetic programming (GP), classification and
regression trees (CART) and GA-ENN (genetic
algorithm-emotional neuron network), to predict the
ultimate bearing capacity (UBC) of cohesionless soils
beneath shallow foundations. For the first time, two
grey-box AI models, GP and CART, and one hybrid AI
model, GA-ENN, were used in the literature to predict
UBC. The inputs of the model are the width of footing
(B), depth of footing (D), footing geometry (ratio of
length to width, L/B), unit weight of sand (?d or ??),
and internal friction angle (?). The results of the
present model were compared with those obtained via two
theoretical approaches and one AI approach reported in
the literature. The statistical evaluation of results
shows that the presently applied paradigm is better
than the theoretical approaches and is competing well
for the prediction of qu. This study shows that the
developed AI models are a robust model for the qu
prediction of shallow foundations on cohesionless soil.
Sensitivity analysis was also carried out to determine
the effect of each input parameter. The findings showed
that the width and depth of the foundation and unit
weight of soil (?d or ??) played the most significant
roles, while the internal friction angle and L/B showed
less importance in predicting qu.",
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notes = "also known as \cite{a16100456}",
- }
Genetic Programming entries for
Katayoon Kiany
Abolfazl Baghbani
Hossam Abuel-Naga
Hasan Baghbani
Mahyar Arabani
Mohammad Mahdi Shalchian
Citations