How can we surpass the computational obstacles in the calibration of high-fidelity surface water_quality models using data_driven metamodels?
Read our latest work on the Journal of Hydroinformatics
Benchmarking the efficiency of a metamodeling-enabled algorithm for the calibration of surface water quality models
K Kandris, E Romas, A Tzimas - Journal of Hydroinformatics, 2020 - iwaponline.com
Abstract
Computational efficiency is a major obstacle imposed in the automatic calibration of numerical, high-fidelity surface water quality models. To surpass this obstacle, the present work formulated a metamodeling-enabled algorithm for the calibration of surface water quality models and assessed the computational gains from this approach compared to a benchmark alternative (a derivative-free optimization algorithm). A radial basis function was trained over multiple snapshots of the original high-fidelity model to emulate the latter's behavior. This data-driven proxy of the original model was subsequently employed in the automatic calibration of the water quality models of two water reservoirs and, finally, the computational gains over the benchmark alternative were estimated. The benchmark analysis revealed that the metamodeling-enabled optimizer reached a solution with the same quality compared to its benchmark alternative in 20–38% lower process times. Thereby, this work manifests tangible evidence of the potential of metamodeling-enabled strategies and sets out a discussion on how to maximize computational gains deriving from such strategies in surface water quality modeling.
