Inverse Problem for Dynamic Computer Simulators via Multiple Scalar-valued Contour Estimation
Abstract
In this paper we consider a dynamic computer simulator that produces a time-series response over time points, for every given input parameter . We propose a method for solving inverse problems, which refer to the finding of a set of inputs that generates a pre-specified simulator output. Inspired by the sequential approach of contour estimation via expected improvement criterion developed by Ranjan et al. (2008, DOI: 10.1198/004017008000000541), our proposed method discretizes the target response series on time points, and then iteratively solves scalar-valued inverse problems with respect to the discretized targets. We also propose to use spline smoothing of the target response series to identify the optimal number of knots, , and the actual location of the knots for discretization. The performance of the proposed methods is compared for several test-function based computer simulators and the motivating real application that uses a rainfall-runoff measurement model named Matlab-Simulink model.
Cite
@article{arxiv.2010.08941,
title = {Inverse Problem for Dynamic Computer Simulators via Multiple Scalar-valued Contour Estimation},
author = {Joseph Resch and Abhyuday Mandal and Pritam Ranjan},
journal= {arXiv preprint arXiv:2010.08941},
year = {2020}
}