AI Article Synopsis
- Identifying rice cultivation areas is crucial for understanding rice distribution and shaping agricultural policies.
- The study utilizes a deep learning model called MSMTRIU-NET, which combines data from Landsat-8 and Sentinel-1 to improve identification accuracy using various spectral and polarimetric features.
- Results from experiments in China's Sanjiang Plain indicate that using multi-source and multi-temporal images significantly enhances classification precision and the realism of the rice cultivation maps.
Article Abstract
Identifying rice cultivation areas in a timely and accurate manner holds great significance in comprehending the overall distribution pattern of rice and formulating agricultural policies. The remote sensing observation technique provides a convenient means to monitor the distribution of rice cultivation areas on a large scale. Single-source or single-temporal remote sensing images are often used in many studies, which makes the information of rice in different types of images and different growth stages hard to be utilized, leading to unsatisfactory identification results. This paper presents a rice cultivation area identification method based on a deep learning model using multi-source and multi-temporal remote sensing images. Specifically, a U-Net based model is employed to identify the rice planting areas using both the Landsat-8 optical dataset and Sentinel-1 Polarimetric Synthetic Aperture Radar (PolSAR) dataset; to take full into account of the spectral reflectance traits and polarimetric scattering traits of rice in different periods, multiple image features from multi-temporal Landsat-8 and Sentinel-1 images are fed into the network to train the model. The experimental results on China's Sanjiang Plain demonstrate the high classification precisions of the proposed Multi-Source and Multi-Temporal Rice Identification U-Net (MSMTRIU-NET) and that inputting more information from multi-source and multi-temporal images into the network can indeed improve the classification performance; further, the classification map exhibits greater continuity, and the demarcations between rice cultivation regions and surrounding environments reflect reality more accurately.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11548646 | PMC |
| http://dx.doi.org/10.3390/s24216915 | DOI Listing |
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