Comparison of function approximation, heuristic, and derivative-based methods for automatic calibration of computationally expensive groundwater bioremediation models

The performance of function approximation (FA) methods is compared to heuristic and derivative-based nonlinear optimization methods for automatic calibration of biokinetic parameters of a groundwater bioremediation model of chlorinated ethenes on a hypothetical and a real field case. For the hypothe...

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Bibliographic Details
Published in:Water resources research 2005-11, Vol.41 (11), p.n/a
Main Authors: Mugunthan, P, Shoemaker, C.A, Regis, R.G
Format: Article
Language:English
Subjects:
biokinetic parameters
bioremediation
bioremediation models
calibration
case studies
chlorinated ethenes
chlorinated hydrocarbons
groundwater
groundwater contamination
heuristic optimization
inverse problem
mathematical models
model validation
new methods
response surface optimization
simulation models
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Summary:The performance of function approximation (FA) methods is compared to heuristic and derivative-based nonlinear optimization methods for automatic calibration of biokinetic parameters of a groundwater bioremediation model of chlorinated ethenes on a hypothetical and a real field case. For the hypothetical case, on the basis of 10 trials on two different objective functions, the FA methods had the lowest mean and smaller deviation of the objective function among all algorithms for a combined Nash-Sutcliffe objective and among all but the derivative-based algorithm for a total squared error objective. The best algorithms in the hypothetical case were applied to calibrate eight parameters to data obtained from a site in California. In three trials the FA methods outperformed heuristic and derivative-based methods for both objective functions. This study indicates that function approximation methods could be a more efficient alternative to heuristic and derivative-based methods for automatic calibration of computationally expensive bioremediation models.
ISSN:0043-1397
1944-7973
DOI:10.1029/2005WR004134