An evolutionary multiobjective strategy for the effective management of groundwater resources
Created by W.Langdon from
gp-bibliography.bib Revision:1.8129
- @Article{Giustolisi:2008:WRR,
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author = "O. Giustolisi and A. Doglioni and D. A. Savic and
F. {di Pierro}",
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title = "An evolutionary multiobjective strategy for the
effective management of groundwater resources",
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journal = "Water Resources Research",
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year = "2008",
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volume = "44",
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number = "1",
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month = jan,
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keywords = "genetic algorithms, genetic programming, EPR,
Data-driven, modelling, evolutionary search,
multiobjective, groundwater resources, efficient
management, planning",
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ISSN = "1944-7973",
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publisher = "American Geophysical Union",
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DOI = "doi:10.1029/2006WR005359",
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size = "14 pages",
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abstract = "This paper introduces a modelling approach aimed at
the management of groundwater resources based on a
hybrid multiobjective paradigm, namely Evolutionary
Polynomial Regression. Multiobjective modeling in
hybrid evolutionary computing enables the user (a) to
find a set of feasible symbolic models, (b) to make a
robust choice of models and (c) to improve
computational efficiency, simultaneously developing a
set of models with diverse structural parsimony levels.
Moreover, this methodology appears to be well suited to
those cases where process input and the boundary
conditions are not easily accessible. The
multiobjective approach is based on the Pareto
dominance criterion and it is fully integrated into the
Evolutionary Polynomial Regression paradigm. This
approach proves to be effective for modelling
groundwater systems, which usually requires (a)
accurate analyses of the underlying physical phenomena,
(b) reliable forecasts under different hypothetical
scenarios and (c) good generalisation features of the
models identified. For these reasons it is important to
construct easily interpretable models which are
specialised for well defined purposes. The proposed
methodology is tested on a case study aimed at
determining the dynamic relationship between rainfall
depth and water table depth for a shallow unconfined
aquifer located in southeast Italy.",
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notes = "Brindisi. no page numbers, W01403, wrcr11027.pdf",
- }
Genetic Programming entries for
Orazio Giustolisi
Angelo Doglioni
Dragan Savic
Francesco di Pierro
Citations