Classification of Paddy Rice Planting Area Through Feature Selection Method Using Sentinel-1/2 Time Series Images

IF 4.7 2区地球科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing Pub Date : 2025-03-21 DOI:10.1109/JSTARS.2025.3552589

Shiyu Zhang;Pengao Li;Yong Xie;Wen Shao;Xueru Tian

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引用次数: 0

Abstract

Utilizing remote sensing technology to accurately and efficiently extract paddy rice planting area is crucial for ensuring food security. In southern Jiangsu, cloudy and rainy weather impairs the effectiveness of optical satellite images, while complex surface coverage reduces the precision of paddy rice classification. Therefore, this study took Liyang City as the study area, reconstructed Sentinel-2 cloud-free time series optical images, and extracted spectral features, vegetation indexes, and other features, in combination with the polarization features of the Sentinel-1 time series radar images. The optimal feature subset was selected through the feature selection method, and machine learning algorithms were optimized for paddy rice planting area classification. Results indicated that: 1) The reconstruction of cloud-free time series images with the Cloud Score+ method and the integrated NSPI and MNSPI approach was stable and effective, with correlation coefficients (r) exceeding 0.87 and low values for indicators such as root mean square error (RMSE), Robert's edge (Edges), and local binary patterns (LBP), meeting the requirements for paddy rice classification. 2) The classification accuracy of combining Sentinel-1 polarization features with Sentinel-2 spectral features could improve by up to 10.52% compared to before the combination. The combination of polarization features, spectral features, and difference features achieved the highest overall accuracy (OA), but the mapping exhibited salt-and-pepper noise. 3) The integration of multi-source remote sensing data and feature selection effectively improved paddy rice classification accuracy. The correlation-based feature selection and greedy step wise algorithms performed the best, with an OA of 93.97% and a Kappa coefficient (Kappa) of 0.9176, producing less mapping noise and higher classification accuracy for paddy rice. The study provides methodological support and a practical case for paddy rice planting area classification in the southern region using remote sensing.

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利用哨兵-1/2 时间序列图像，通过特征选择法对水稻种植区进行分类

利用遥感技术准确、高效地提取水稻种植面积对保障粮食安全至关重要。在苏南地区，阴雨天气影响了卫星光学影像的有效性，而复杂的地表覆盖又降低了水稻分类的精度。因此，本研究以溧阳市为研究区，结合Sentinel-1时间序列雷达图像的偏振特征，重构Sentinel-2无云时间序列光学图像，提取光谱特征、植被指数等特征。通过特征选择方法选择最优特征子集，优化机器学习算法进行水稻种植面积分类。结果表明：1)Cloud Score+方法与NSPI和MNSPI综合方法重建无云时间序列图像稳定有效，相关系数(r)均大于0.87，均方根误差（RMSE）、罗伯特边缘（Edges）、局部二值模式（LBP）等指标均较低，满足水稻分类要求；2)将Sentinel-1偏振特征与Sentinel-2光谱特征组合后，分类精度比组合前提高了10.52%。极化特征、光谱特征和差值特征的组合获得了最高的总体精度（OA），但作图存在椒盐噪声。3)多源遥感数据与特征选择的融合有效提高了水稻分类精度。基于相关性的特征选择算法和贪婪步进算法表现最好，OA为93.97%，Kappa系数（Kappa）为0.9176，对水稻的分类噪声较小，分类精度较高。该研究为南方地区水稻种植面积的遥感分类提供了方法支持和实践案例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing 地学-成像科学与照相技术

CiteScore

9.30

自引率

10.90%

发文量

563

审稿时长

4.7 months

期刊介绍： The IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing addresses the growing field of applications in Earth observations and remote sensing, and also provides a venue for the rapidly expanding special issues that are being sponsored by the IEEE Geosciences and Remote Sensing Society. The journal draws upon the experience of the highly successful “IEEE Transactions on Geoscience and Remote Sensing” and provide a complementary medium for the wide range of topics in applied earth observations. The ‘Applications’ areas encompasses the societal benefit areas of the Global Earth Observations Systems of Systems (GEOSS) program. Through deliberations over two years, ministers from 50 countries agreed to identify nine areas where Earth observation could positively impact the quality of life and health of their respective countries. Some of these are areas not traditionally addressed in the IEEE context. These include biodiversity, health and climate. Yet it is the skill sets of IEEE members, in areas such as observations, communications, computers, signal processing, standards and ocean engineering, that form the technical underpinnings of GEOSS. Thus, the Journal attracts a broad range of interests that serves both present members in new ways and expands the IEEE visibility into new areas.