AI Article Synopsis
- Soil moisture content (SMC) is crucial for geoscience research and can be retrieved using artificial neural networks (ANN) with remote sensing data.
- The study developed a sparse sample exploitation (SSE) method to address sample scarcity caused by cloud cover and faulty measuring instruments, effectively increasing sample availability for ANN training from 264 to 635.
- New optimized parameters, including elevation as a key factor, were introduced to enhance the feature description and improve retrieval accuracy of SMC using Sentinel-1 SAR and Landsat-8 images in eastern Austria.
Article Abstract
Soil moisture content (SMC) plays an essential role in geoscience research. The SMC can be retrieved using an artificial neural network (ANN) based on remote sensing data. The quantity and quality of samples for ANN training and testing are two critical factors that affect the SMC retrieving results. This study focused on sample optimization in both quantity and quality. On the one hand, a sparse sample exploitation (SSE) method was developed to solve the problem of sample scarcity, resultant from cloud obstruction in optical images and the malfunction of in situ SMC-measuring instruments. With this method, data typically excluded in conventional approaches can be adequately employed. On the other hand, apart from the basic input parameters commonly discussed in previous studies, a couple of new parameters were optimized to improve the feature description. The Sentinel-1 SAR and Landsat-8 images were adopted to retrieve SMC in the study area in eastern Austria. By the SSE method, the number of available samples increased from 264 to 635 for ANN training and testing, and the retrieval accuracy could be markedly improved. Furthermore, the optimized parameters also improve the inversion effect, and the elevation was the most influential input parameter.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8879226 | PMC |
| http://dx.doi.org/10.3390/s22041611 | DOI Listing |
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