Empirical modeling of shear strength of steel fiber reinforced concrete beams by gene expression programming
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- @Article{journals/nca/Kara13,
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title = "Empirical modeling of shear strength of steel fiber
reinforced concrete beams by gene expression
programming",
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author = "Ilker Fatih Kara",
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journal = "Neural Computing and Applications",
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year = "2013",
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number = "3-4",
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volume = "23",
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pages = "823--834",
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keywords = "genetic algorithms, genetic programming, gene
expression programming, GEP",
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bibdate = "2013-09-24",
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bibsource = "DBLP,
http://dblp.uni-trier.de/db/journals/nca/nca23.html#Kara13",
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URL = "http://dx.doi.org/10.1007/s00521-012-0999-x",
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size = "12 pages",
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abstract = "The addition of steel fibres into concrete improves
the pestering tensile strength of hardened concrete and
hence significantly enhances the shear strength of
reinforced concrete reinforced concrete beams. However,
developing an accurate model for predicting the shear
strength of steel fiber reinforced concrete (SFRC)
beams is a challenging task as there are several
parameters such as the concrete compressive strength,
shear span to depth ratio, reinforcement ratio and
fibre content that affect the ultimate shear resistance
of FRC beams. This paper investigates the feasibility
of using gene expression programming (GEP) to create an
empirical model for the ultimate shear strength of SFRC
beams without stirrups. The model produced by GEP is
constructed directly from a set of experimental results
available in the literature. The results of training,
testing and validation sets of the model are compared
with experimental results. All of the results show that
GEP model is fairly promising approach for the
prediction of shear strength of SFRC beams. The
performance of the GEP model is also compared with
different proposed formulas available in the
literature. It was found that the GEP model provides
the most accurate results in calculating the shear
strength of SFRC beams among existing shear strength
formulae. Parametric studies are also carried out to
evaluate the ability of the proposed GEP model to
quantitatively account for the effects of shear design
parameters on the shear strength of SFRC beams.",
- }
Genetic Programming entries for
Ilker Fatih Kara
Citations