A true triaxial strength criterion for rocks by gene expression programming
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- @Article{ZHOU:2023:jrmge,
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author = "Jian Zhou and Rui Zhang and Yingui Qiu and
Manoj Khandelwal",
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title = "A true triaxial strength criterion for rocks by gene
expression programming",
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journal = "Journal of Rock Mechanics and Geotechnical
Engineering",
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volume = "15",
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number = "10",
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pages = "2508--2520",
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year = "2023",
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ISSN = "1674-7755",
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DOI = "doi:10.1016/j.jrmge.2023.03.004",
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URL = "https://www.sciencedirect.com/science/article/pii/S1674775523000938",
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keywords = "genetic algorithms, genetic programming, Gene
expression programming, GEP, True triaxial strength,
Rock failure criteria, Intermediate principal stress",
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abstract = "Rock strength is a crucial factor to consider when
designing and constructing underground projects. we
uses a gene expression programming (GEP)
algorithm-based model to predict the true triaxial
strength of rocks, taking into account the influence of
rock genesis on their mechanical behavior during the
model building process. A true triaxial strength
criterion based on the GEP model for igneous,
metamorphic and magmatic rocks was obtained by training
the model using collected data. Compared to the
modified Weibols-Cook criterion, the modified
Mohr-Coulomb criterion, and the modified Lade
criterion, the strength criterion based on the GEP
model exhibits superior prediction accuracy
performance. The strength criterion based on the GEP
model has better performance in R2, RMSE and MAPE for
the data set used in this study. Furthermore, the
strength criterion based on the GEP model shows greater
stability in predicting the true triaxial strength of
rocks across different types. Compared to the existing
strength criterion based on the genetic programming
(GP) model, the proposed criterion based on GEP model
achieves more accurate predictions of the variation of
true triaxial strength (?1) with intermediate principal
stress (?2). Finally, based on the Sobol sensitivity
analysis technique, the effects of the parameters of
the three obtained strength criteria on the true
triaxial strength of the rock are analysed. In general,
the proposed strength criterion exhibits superior
performance in terms of both accuracy and stability of
prediction results",
- }
Genetic Programming entries for
Jian Zhou
Rui Zhang
Yingui Qiu
Manoj Khandelwal
Citations