Quantifying Data Worth Toward Reducing Predictive Uncertainty

Quantifying Data Worth Toward Reducing Predictive Uncertainty

The present study demonstrates a methodology for optimization of environmental data acquisition. Based on the premise that the worth of data increases in proportion to its ability to reduce the uncertainty of key model predictions, the methodology can be used to compare the worth of different data t...

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Bibliographic Details
Published in:Ground water Vol. 48; no. 5; pp. 729 - 740
Main Authors: Dausman, Alyssa M, Doherty, John, Langevin, Christian D, Sukop, Michael C
Format: Journal Article
Language:English
Published: Oxford, UK Oxford, UK : Blackwell Publishing Ltd 01-09-2010
Blackwell Publishing Ltd
Ground Water Publishing Company
Subjects:
Data Interpretation, Statistical
Density
Fresh water
Groundwater
Mathematical models
Methodology
Movement
Nonlinearity
Numerical analysis
Saline water
Seawater
Studies
Temperature measurement
Uncertainty
Water Movements
Water temperature
Online Access:Get full text
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Summary:The present study demonstrates a methodology for optimization of environmental data acquisition. Based on the premise that the worth of data increases in proportion to its ability to reduce the uncertainty of key model predictions, the methodology can be used to compare the worth of different data types, gathered at different locations within study areas of arbitrary complexity. The method is applied to a hypothetical nonlinear, variable density numerical model of salt and heat transport. The relative utilities of temperature and concentration measurements at different locations within the model domain are assessed in terms of their ability to reduce the uncertainty associated with predictions of movement of the salt water interface in response to a decrease in fresh water recharge. In order to test the sensitivity of the method to nonlinear model behavior, analyses were repeated for multiple realizations of system properties. Rankings of observation worth were similar for all realizations, indicating robust performance of the methodology when employed in conjunction with a highly nonlinear model. The analysis showed that while concentration and temperature measurements can both aid in the prediction of interface movement, concentration measurements, especially when taken in proximity to the interface at locations where the interface is expected to move, are of greater worth than temperature measurements. Nevertheless, it was also demonstrated that pairs of temperature measurements, taken in strategic locations with respect to the interface, can also lead to more precise predictions of interface movement.
Bibliography:http://dx.doi.org/10.1111/j.1745-6584.2010.00679.x
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content type line 23
ISSN:0017-467X
1745-6584
DOI:10.1111/j.1745-6584.2010.00679.x