Prediction of tapered steel plate girders shear strength using multigene genetic programming
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- @Article{ISMAIL:2023:engstruct,
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author = "Mohamed K. Ismail and Basem H. AbdelAleem and
Assem A. A. Hassan and Wael El-Dakhakhni",
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title = "Prediction of tapered steel plate girders shear
strength using multigene genetic programming",
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journal = "Engineering Structures",
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volume = "295",
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pages = "116806",
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year = "2023",
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ISSN = "0141-0296",
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DOI = "doi:10.1016/j.engstruct.2023.116806",
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URL = "https://www.sciencedirect.com/science/article/pii/S014102962301221X",
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keywords = "genetic algorithms, genetic programming, Data-driven
models, Multi-gene genetic programming, Ultimate shear
strength, Sensitivity analyses, Tapered web panel",
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abstract = "Tapered steel plate girders have been widely used in
the construction of bridges and heavy industry
structures. However, predicting their structural
behavior, particularly in shear, is challenging due to
their non-prismatic sections and ill-understood
influencing factors. Therefore, simplified analytical
and classic regression techniques may not be able to
capture the underlying nonlinear relationships
controlling the shear behavior of tapered plate
girders. In this study, multigene genetic programming
(MGGP) was used to explore such complex relationships,
and subsequently develop robust predictive expressions
for the tapered steel plate girders shear strength.
Attributed to the lack of a large experimental dataset,
a nonlinear finite element model (FEM) was first
developed and validated against available experimental
results in literature. The FEM was subsequently
employed to generate a matrix of 211 numerical results
to augment 200 more FEM results compiled from previous
studies, to cover a wider range of design parameters.
The entire dataset was then used in the training and
testing of the MGGP predictive expressions. The
prediction accuracy of the developed expressions was
evaluated against that of other existing expressions.
The results showed that the adopted MGGP approach,
guided be mechanics understanding, produced elegant
predictive expressions with high level of accuracy and
generalizability compared to other existing ones
examined herein. As such, the developed expressions
present an efficient prediction tool that can be
adopted by design standards for estimating the ultimate
shear strength of tapered steel girders. Finally,
reliability analysis is performed on the developed
expressions to introduce strength reduction factors in
order to satisfy target design conservatism",
- }
Genetic Programming entries for
Mohamed K Ismail
Basem H AbdelAleem
Assem A A Hassan
Wael El-Dakhakhni
Citations