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OLS Field Name OLS Field Data
Main Title Computational Methods for Sensitivity and Uncertainty Analysis for Environmental and Biological Models.
Author Isukapalli, S. S. ; Georgopoulos, P. G. ;
CORP Author Environmental Protection Agency, Research Triangle Park, NC. National Exposure Research Lab. ;Environmental and Occupational Health Sciences Inst., Piscataway, NJ.
Publisher Dec 2001
Year Published 2001
Report Number EPA/600/R-01/068;
Stock Number PB2004-102518
Additional Subjects Probability theory ; Sensitivity analysis ; Biology ; Environmental science ; Mathematical models ; Risk assessment ; Plumes ; Photochemical reactions ; Air pollution ; Stochastic processes ; Computational biology
Internet Access
Description Access URL
Library Call Number Additional Info Location Last
NTIS  PB2004-102518 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. 05/17/2004
Collation 160p
Abstract Characterization of uncertainty associated with transport-transformation models is often of critical importance, as for example in cases where environmental and biological models are employed in risk assessment. However, uncertainty analysis using conventional methods such as standard Monte Carlo or Latin Hypercube Sampling may not be efficient, or even feasible, for complex, computationally demanding models. This work introduces a computationally efficient alternative method for uncertainty propagation, the Stochastic Response Surface Method (SRSM). The SRSM approximates uncertainties in model outputs through a series expansion in normal random variables (polynomial chaos expansion). The unknown coefficients in series expansions are calculated using a limited number of model simulations. This method is analogous to approximation of a deterministic system by an algebraic response surface. Further improvements in the computational efficiency of the SRSM are accomplished by coupling the SRSM with ADIFOR, which facilitates automatic calculation of partial derivatives in numerical models coded in Fortran. The coupled method, SRSM-ADIFOR, uses the model outputs and their derivatives to calculate the unknown coefficients. The SRSM and the SRSM-ADIFOR have been applied to a set of environmental and biological models. In all the case studies, the SRSM required an order of magnitude fewer simulations compared to conventional methods, and the SRSM-ADIFOR required even fewer simulations. Finally, this research addresses uncertainties associated with model structure and resolution with application to photochemical air quality modeling. A three dimensional version of the regulatory Reactive Plume Model (RPM), RPM-3D, has been developed and applied to understand model uncertainty.
Supplementary Notes Prepared in cooperation with Environmental and Occupational Health Sciences Inst., Piscataway, NJ.
Availability Notes Also available on CD-ROM. Product reproduced from digital image. Order this product from NTIS by: phone at 1-800-553-NTIS (U.S. customers); (703)605-6000 (other countries); fax at (703)605-6900; and email at orders@ntis.gov. NTIS is located at 5285 Port Royal Road, Springfield, VA, 22161, USA.
Category Codes 68; 57; 72F
NTIS Prices PC A09/MF A02
Primary Description 600/09
Document Type NT
Cataloging Source NTIS/MT
Control Number 009700180
Origin NTIS
Type CAT