Advancing Digital Image-Based Recognition of Soil Water Content: A Case Study in Bailu Highland, Shaanxi Province, China

Advancing Digital Image-Based Recognition of Soil Water Content: A Case Study in Bailu Highland, Shaanxi Province, China

Soil water content (SWC) plays a vital role in agricultural management, geotechnical engineering, hydrological modeling, and climate research. Image-based SWC recognition methods show great potential compared to traditional methods. However, their accuracy and efficiency limitations hinder wide appl...

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Veröffentlicht in:Water (Basel) 2024-04, Vol.16 (8), p.1133
Hauptverfasser: Zhang, Yaozhong, Zhang, Han, Lan, Hengxing, Li, Yunchuang, Liu, Honggang, Sun, Dexin, Wang, Erhao, Dong, Zhonghong
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Accuracy
Agricultural production
Digital cameras
Engineering
Machine learning
Methods
Neural networks
Regression analysis
Remote sensing
Water resources
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container_end_page
container_issue 8
container_start_page 1133
container_title Water (Basel)
container_volume 16
creator Zhang, Yaozhong
Zhang, Han
Lan, Hengxing
Li, Yunchuang
Liu, Honggang
Sun, Dexin
Wang, Erhao
Dong, Zhonghong
description Soil water content (SWC) plays a vital role in agricultural management, geotechnical engineering, hydrological modeling, and climate research. Image-based SWC recognition methods show great potential compared to traditional methods. However, their accuracy and efficiency limitations hinder wide application due to their status as a nascent approach. To address this, we design the LG-SWC-R3 model based on an attention mechanism to leverage its powerful learning capabilities. To enhance efficiency, we propose a simple yet effective encoder–decoder architecture (PVP-Transformer-ED) designed on the principle of eliminating redundant spatial information from images. This architecture involves masking a high proportion of soil images and predicting the original image from the unmasked area to aid the PVP-Transformer-ED in understanding the spatial information correlation of the soil image. Subsequently, we fine-tune the SWC recognition model on the pre-trained encoder of the PVP-Transformer-ED. Extensive experimental results demonstrate the excellent performance of our designed model (R2 = 0.950, RMSE = 1.351%, MAPE = 0.081, MAE = 1.369%), surpassing traditional models. Although this method involves processing only a small fraction of original image pixels (approximately 25%), which may impact model performance, it significantly reduces training time while maintaining model error within an acceptable range. Our study provides valuable references and insights for the popularization and application of image-based SWC recognition methods.
doi_str_mv 10.3390/w16081133
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Extensive experimental results demonstrate the excellent performance of our designed model (R2 = 0.950, RMSE = 1.351%, MAPE = 0.081, MAE = 1.369%), surpassing traditional models. Although this method involves processing only a small fraction of original image pixels (approximately 25%), which may impact model performance, it significantly reduces training time while maintaining model error within an acceptable range. 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source MDPI - Multidisciplinary Digital Publishing Institute; EZB-FREE-00999 freely available EZB journals
subjects Accuracy
Agricultural production
Digital cameras
Engineering
Machine learning
Methods
Neural networks
Regression analysis
Remote sensing
Water resources
title Advancing Digital Image-Based Recognition of Soil Water Content: A Case Study in Bailu Highland, Shaanxi Province, China
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