Parameter estimation of soil hydraulic characteristics by inverse modeling of the analytical equation for unsaturated subsurface water flow

Oliveira, Luiz Fernando Coutinho de; Souza, Gabriela Rezende de; Corrêa, Flávia Vilela; Silva, Jaíza Ribeiro Mota e

doi:10.2166/hydro.2020.015

Cited by 4 publications

(1 citation statement)

References 38 publications

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“…Non-local methods can be used to infer effective values for system parameters via inverse modeling, wherein the parameter field is constrained to be homogenous, and the corresponding best-fit equivalent upscaled parameter value is determined. Several recent studies [30][31][32][33] have used this technique for vadose zone parameter estimation. However, this approach requires solving the flow problem for specified boundary conditions.…”

Section: Introductionmentioning

confidence: 99%

Can Deep Learning Extract Useful Information about Energy Dissipation and Effective Hydraulic Conductivity from Gridded Conductivity Fields?

Moghaddam¹,

Ferré²,

Ehsani³

et al. 2021

Water

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We confirm that energy dissipation weighting provides the most accurate approach to determining the effective hydraulic conductivity (Keff) of a binary K grid. A deep learning algorithm (UNET) can infer Keff with extremely high accuracy (R2 > 0.99). The UNET architecture could be trained to infer the energy dissipation weighting pattern from an image of the K distribution, although it was less accurate for cases with highly localized structures that controlled flow. Furthermore, the UNET architecture learned to infer the energy dissipation weighting even if it was not trained directly on this information. However, the weights were represented within the UNET in a way that was not immediately interpretable by a human user. This reiterates the idea that even if ML/DL algorithms are trained to make some hydrologic predictions accurately, they must be designed and trained to provide each user-required output if their results are to be used to improve our understanding of hydrologic systems.

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Section: Introductionmentioning

confidence: 99%

Can Deep Learning Extract Useful Information about Energy Dissipation and Effective Hydraulic Conductivity from Gridded Conductivity Fields?

Moghaddam¹,

Ferré²,

Ehsani³

et al. 2021

Water

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Subsurface flow model for estimating 2D wetting pattern in drip irrigation

Reddy,

Singh

2024

CLEAN Soil Air Water

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Numerical model using 2D Richard’s equation in cylindrical polar coordinate system was developed to assess the soil wetting patterns in a drip irrigation system. A fully implicit finite‐difference scheme was used to solve equations with suitable initial and boundary conditions. The developed model was validated with an experimental result available in the literature, which shows a high level of concordance with low values of RMSE and R2 greater than 0.93 for all discharge rates. Furthermore, the versatility and applicability of the model were demonstrated for complex subsurface conditions considering homogeneous and heterogeneous soil profiles. Water ponding on the surface was observed in clay loam soil, contrasting with deep percolation in sandy loam soil. This underscores the significance of adjusting both discharge rate and irrigation frequency in accordance with prevailing soil conditions.

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Prediction of the van Genuchten model soil hydraulic parameters for the 5-m soil profile in China’s Loess Plateau

Bai

Shao

Jia

et al. 2022

CATENA

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Parameter estimation of soil hydraulic characteristics by inverse modeling of the analytical equation for unsaturated subsurface water flow

Cited by 4 publications

References 38 publications

Can Deep Learning Extract Useful Information about Energy Dissipation and Effective Hydraulic Conductivity from Gridded Conductivity Fields?

Can Deep Learning Extract Useful Information about Energy Dissipation and Effective Hydraulic Conductivity from Gridded Conductivity Fields?

Subsurface flow model for estimating 2D wetting pattern in drip irrigation

Prediction of the van Genuchten model soil hydraulic parameters for the 5-m soil profile in China’s Loess Plateau

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