Design models for predicting shear resistance of studs in solid concrete slabs based on symbolic regression with genetic programming
Created by W.Langdon from
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- @Article{Degtyarev:2022:SCS,
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author = "Vitaliy V. Degtyarev and Stephen J. Hicks and
Jerome F. Hajjar",
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title = "Design models for predicting shear resistance of studs
in solid concrete slabs based on symbolic regression
with genetic programming",
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journal = "Steel and Composite Structures",
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year = "2022",
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volume = "43",
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number = "3",
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pages = "293--309",
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month = may,
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keywords = "genetic algorithms, genetic programming, headed studs,
shear resistance, steel-concrete composite structures,
reliability, machine learning, symbolic regression",
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publisher = "Korea Institute of Science and Technology
Information",
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ISSN = "1229-9367",
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URL = "https://wrap.warwick.ac.uk/id/eprint/163641/1/WRAP-Design-models-predicting-shear-resistance-studs-solid-concrete-2022.pdf",
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DOI = "doi:10.12989/scs.2022.43.3.293",
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size = "17 pages",
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abstract = "Accurate design models for predicting the shear
resistance of headed studs in solid concrete slabs are
essential for obtaining economical and safe
steel-concrete composite structures. In this study,
symbolic regression with genetic programming (GPSR) was
applied to experimental data to formulate new
descriptive equations for predicting the shear
resistance of studs in solid slabs using both normal
and lightweight concrete. The obtained GPSR-based
nominal resistance equations demonstrated good
agreement with the test results. The equations indicate
that the stud shear resistance is insensitive to the
secant modulus of elasticity of concrete, which has
been included in many international standards following
the pioneering work of Ollgaard et al. In contrast, it
increases when the stud height-to-diameter ratio
increases, which is not reflected by the design models
in the current international standards. The nominal
resistance equations were subsequently refined for use
in design from reliability analyses to ensure that the
target reliability index required by the Eurocodes was
achieved. Resistance factors for the developed
equations were also determined following US design
practice. The stud shear resistance predicted by the
proposed models was compared with the predictions from
13 existing models. The accuracy of the developed
models exceeds the accuracy of the existing equations.
The proposed models produce predictions that can be
used with confidence in design, while providing
significantly higher stud resistances for certain
combinations of variables than those computed with the
existing equations given by many standards.",
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notes = "Also known as \cite{warwick163641}",
- }
Genetic Programming entries for
Vitaliy V Degtyarev
Stephen J Hicks
Jerome F Hajjar
Citations