Abstract
In this paper an ensemble of supervised machine learning methods has been investigated to virtually and dynamically calibrate the cosmic ray sensors measuring area wise bulk soil moisture. Main focus of this study was to find an alternative to the currently available field calibration method; based on expensive and time consuming soil sample collection methodology. Data from the Australian Water Availability Project (AWAP) database was used as independent soil moisture ground truth and results were compared against the conventionally estimated soil moisture using a Hydroinnova CRS-1000 cosmic ray probe deployed in Tullochgorum, Australia. Prediction performance of a complementary ensemble of four supervised estimators, namely Sugano type Adaptive Neuro-Fuzzy Inference System (S-ANFIS), Cascade Forward Neural Network (CFNN), Elman Neural Network (ENN) and Learning Vector Quantization Neural Network (LVQN) was evaluated using training and testing paradigms. An AWAP trained ensemble of four estimators was able to predict bulk soil moisture directly from cosmic ray neutron counts with 94.4% as best accuracy. The ensemble approach outperformed the individual performances from these networks. This result proved that an ensemble machine learning based paradigm could be a valuable alternative data driven calibration method for cosmic ray sensors against the current expensive and hydrological assumption based field calibration method.
Highlights
In this paper an ensemble of supervised machine learning methods has been investigated to virtually and dynamically calibrate the cosmic ray sensors measuring area wise bulk soil moisture
Data from the Hydroinnova CRS-1000 cosmic ray soil moisture probe deployed in the Tullochgorum site in Tasmania, Australia was used for this study
In the LVQNN, neurons were added to the network until the sum-squared error (SSE) falls beneath an error goal (0.001), or a maximum number (172) of internal neurons was reached
Summary
The Australian Cosmic Ray Sensor Soil Moisture Monitoring Network (CosmOz) (Figure 1) [1,2] is a near-real time continental scale soil moisture monitoring system originally inspired by the United States Cosmic-ray Soil Moisture Observing System (COSMOS) [3,4,5]. CosmOz aims to test the utility of Hydroinnova CRS-1000 cosmic ray soil moisture probes [3] (Figure 2) for water management, water information, hydrological process research applications and test the feasibility and utility of a national near-real time soil moisture measurement network.
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