Evaluation of confidence intervals for a steady-state leaky aquifer model |
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| Authors: | S Christensen R L Cooley |
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| Institution: | a Department of Earth Sciences, Aarhus University, Ny Munkegade b. 520, 8000 Aarhus C, Denmark;b Water Resources Division, U.S. Geological Survey, Box 25046, Mail Stop 413, Denver Federal Center, Denver, Colorado 80225, USA |
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| Abstract: | The fact that dependent variables of groundwater models are generally nonlinear functions of model parameters is shown to be a potentially significant factor in calculating accurate confidence intervals for both model parameters and functions of the parameters, such as the values of dependent variables calculated by the model. The Lagrangian method of Vecchia and Cooley Vecchia, A.V. & Cooley, R.L., Water Resources Research, 1987, 23(7), 1237–1250] was used to calculate nonlinear Scheffé-type confidence intervals for the parameters and the simulated heads of a steady-state groundwater flow model covering 450 km2 of a leaky aquifer. The nonlinear confidence intervals are compared to corresponding linear intervals. As suggested by the significant nonlinearity of the regression model, linear confidence intervals are often not accurate. The commonly made assumption that widths of linear confidence intervals always underestimate the actual (nonlinear) widths was not correct. Results show that nonlinear effects can cause the nonlinear intervals to be asymmetric and either larger or smaller than the linear approximations. Prior information on transmissivities helps reduce the size of the confidence intervals, with the most notable effects occurring for the parameters on which there is prior information and for head values in parameter zones for which there is prior information on the parameters. |
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| Keywords: | confidence interval nonlinearity groundwater flow model regression |
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