Maximizing soil moisture estimation accuracy through simultaneous hydraulic parameter estimation using microwave remote sensing: Methodology and application
Improving the accuracy of soil moisture estimation is desirable from the perspectives of irrigation management and water conservation. To this end, this study proposes a systematic approach to select a subset of soil hydraulic parameters for estimation in large-scale agrohydrological systems to enhance soil moisture estimation accuracy. The proposed method involves simultaneous estimation of the selected parameters and the entire soil moisture distribution of the field, taking into account soil heterogeneity and using soil moisture observations obtained through microwave radiometers mounted on a center pivot irrigation system. At its core, the proposed method models the field with the cylindrical coordinate version of the Richards equation and addresses the issue of parameter estimability (quantitative parameter identifiability) through the sensitivity analysis and orthogonal projection approaches. Additionally, the study assimilates remotely sensed soil moisture observations into the field model using the extended Kalman filtering technique. The effectiveness of the proposed methodology is demonstrated through numerical simulations and a real field experiment, with cross-validation results showing a 24-43% improvement in soil moisture estimation accuracy. Overall, the study highlights the potential of this method to enhance soil moisture estimation in large-scale agricultural fields.
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