Multigene genetic programming for sediment transport modeling in sewers for conditions of non-deposition with a bed deposit
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- @Article{SAFARI2018,
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author = "Mir Jafar Sadegh Safari and Ali {Danandeh Mehr}",
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title = "Multigene genetic programming for sediment transport
modeling in sewers for conditions of non-deposition
with a bed deposit",
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journal = "International Journal of Sediment Research",
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year = "2018",
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volume = "33",
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number = "3",
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pages = "262--270",
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month = sep,
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keywords = "genetic algorithms, genetic programming, Multigene
genetic programming, Bed load, Bed deposition,
Non-deposition, Sediment transport, Sewer",
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ISSN = "1001-6279",
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URL = "http://www.sciencedirect.com/science/article/pii/S1001627917300252",
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DOI = "doi:10.1016/j.ijsrc.2018.04.007",
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abstract = "It is known that construction of large sewers based on
consideration of flow with non-deposition without a bed
deposit is not economical. Sewer design based on
consideration of flow with non-deposition with a bed
deposit reduces channel bed slope and construction cost
in which the presence of a small depth of sediment
deposition on the bed increases the sediment transport
capacity of the flow. This paper suggests a new
Pareto-optimal model developed by the multigene genetic
programming (MGGP) technique to estimate particle
Froude number (Frp) in large sewers with conditions of
sediment deposition on the bed. To this end, four data
sets including wide ranges of sediment size and
concentration, deposit thickness, and pipe size are
used. On the basis of different statistical performance
indices, the efficiency of the proposed Pareto-optimal
MGGP model is compared to those of the best MGGP model
developed in the current study as well as the
conventional regression models available in the
literature. The results indicate the higher efficiency
of the MGGP-based models for Frp estimation in the case
of no additional deposition onto a bed with a sediment
deposit. Inasmuch as the Pareto-optimal MGGP model uses
a lower number of input parameters to yield
comparatively higher performance than the conventional
regression models, it can be used as a parsimonious
model for self-cleansing design of large sewers in
practice.",
- }
Genetic Programming entries for
Mir Jafar Sadegh Safari
Ali Danandeh Mehr
Citations