On the use of neural networks to evaluate groundwater levels in fractured media

This paper evaluates the feasibility of using artificial neural network (ANN) methodology for estimating the groundwater level in some piezometers implanted in unconfined chalky aquifer of Northern France. These aquifers are the most susceptible to depletion and contamination, with the recharge rate...

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Vydáno v:	Journal of hydrology (Amsterdam) Ročník 307; číslo 1; s. 92 - 111
Hlavní autoři:	Lallahem, S., Mania, J., Hani, A., Najjar, Y.
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	Amsterdam Elsevier B.V 09.06.2005 Elsevier Science Elsevier
Témata:	algorithms ANN aquifers Backpropagation algorithm Chalk Earth sciences Earth, ocean, space Exact sciences and technology Fractured media France Groundwater Hydrogeology hydrologic models Hydrology. Hydrogeology neural networks simulation models water table France Somme France Western Europe Fractured media ANN Backpropagation algorithm Chalk Groundwater algorithms models carbonate rocks Europe neural networks ground water water table digital simulation contamination fractured environment sedimentary rocks aquifers chalk piezometry unconfined aquifers
ISSN:	0022-1694, 1879-2707
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Abstract	This paper evaluates the feasibility of using artificial neural network (ANN) methodology for estimating the groundwater level in some piezometers implanted in unconfined chalky aquifer of Northern France. These aquifers are the most susceptible to depletion and contamination, with the recharge rate and dominant processes determining their level of vulnerability. Groundwater level simulation in a chalky media is regarded as a difficult subject in hydrogeology due to the complexity of the physical processes involved, the variability of piezometry in space and time and the aquifer response in fissured and matrix blocks. In the present project, after a detailed geologic and hydrogeologic study of the sector, we simulated the groundwater level by Neural Network. The first objective was to determine the most influential parameters which impact groundwater level in fissured chalky media. The second objective was to investigate the effect of temporal and spatial information by considering current and past data sets along with the use of a variety of piezometer readings. The third objective was to simulate the groundwater level in a selected piezometer. The reasonably good ANN-based simulations revealed the merit of using ANNs and specifically Multi Layer Perceptron (MLP) models. The proposed ANN methodology using minimal lag and number of hidden nodes, along with the optimal number of spatial and temporal variables consistently produced the best performing network-based simulation models.
AbstractList	This paper evaluates the feasibility of using artificial neural network (ANN) methodology for estimating the groundwater level in some piezometers implanted in unconfined chalky aquifer of Northern France. These aquifers are the most susceptible to depletion and contamination, with the recharge rate and dominant processes determining their level of vulnerability. Groundwater level simulation in a chalky media is regarded as a difficult subject in hydrogeology due to the complexity of the physical processes involved, the variability of piezometry in space and time and the aquifer response in fissured and matrix blocks. In the present project, after a detailed geologic and hydrogeologic study of the sector, we simulated the groundwater level by Neural Network. The first objective was to determine the most influential parameters which impact groundwater level in fissured chalky media. The second objective was to investigate the effect of temporal and spatial information by considering current and past data sets along with the use of a variety of piezometer readings. The third objective was to simulate the groundwater level in a selected piezometer. The reasonably good ANN--based simulations revealed the merit of using ANNs and specifically Multi Layer Perceptron (MLP) models. The proposed ANN methodology using minimal lag and number of hidden nodes, along with the optimal number of spatial and temporal variables consistently produced the best performing network--based simulation models.
Author	Lallahem, S. Najjar, Y. Mania, J. Hani, A.
Author_xml	– sequence: 1 givenname: S. surname: Lallahem fullname: Lallahem, S. email: sami.lallahem@eudil.fr organization: Ecole Polytechnique Universitaire de Lille. Département de Géotechnique and Génie Civil. LML UMR CNRS 8107 Av. Paul Langevin, 59655 Villeneuve d'Ascq, France – sequence: 2 givenname: J. surname: Mania fullname: Mania, J. organization: Ecole Polytechnique Universitaire de Lille. Département de Géotechnique and Génie Civil. LML UMR CNRS 8107 Av. Paul Langevin, 59655 Villeneuve d'Ascq, France – sequence: 3 givenname: A. surname: Hani fullname: Hani, A. organization: Ecole Polytechnique Universitaire de Lille. Département de Géotechnique and Génie Civil. LML UMR CNRS 8107 Av. Paul Langevin, 59655 Villeneuve d'Ascq, France – sequence: 4 givenname: Y. surname: Najjar fullname: Najjar, Y. organization: Department of Civil Engineering, Kansas State University, Manhattan, KS, USA
BackLink	http://pascal-francis.inist.fr/vibad/index.php?action=getRecordDetail&idt=16859725$$DView record in Pascal Francis https://hal.science/hal-00137144$$DView record in HAL
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Keywords	Fractured media ANN Backpropagation algorithm Chalk Groundwater algorithms models carbonate rocks Europe neural networks ground water water table digital simulation contamination fractured environment sedimentary rocks aquifers chalk piezometry unconfined aquifers
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Snippet	This paper evaluates the feasibility of using artificial neural network (ANN) methodology for estimating the groundwater level in some piezometers implanted in...
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SubjectTerms	algorithms ANN aquifers Backpropagation algorithm Chalk Earth sciences Earth, ocean, space Exact sciences and technology Fractured media France Groundwater Hydrogeology hydrologic models Hydrology. Hydrogeology neural networks simulation models water table
Title	On the use of neural networks to evaluate groundwater levels in fractured media
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