基于语义分割网络的冬小麦遥感分类及变化分析

doi:10.13474/j.cnki.11-2246.2024.1025.

测绘通报 ›› 2024, Vol. 0 ›› Issue (10): 151-156.doi: 10.13474/j.cnki.11-2246.2024.1025.

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基于语义分割网络的冬小麦遥感分类及变化分析

孙常建, 尚永福, 王石岩, 窦小楠

河南省地理信息院, 河南郑州 450000

收稿日期:2024-03-18 发布日期:2024-11-02
通讯作者: 王石岩,E-mail:hnscllxxysck@163.com
作者简介:孙常建(1981—),男,硕士,高级工程师,主要从事摄影测量和遥感、地理信息系统技术的研究与应用工作。E-mail:36721911@qq.com
基金资助:
2020年度河南省自然资源科研项目(2020-8)

Classification and change analysis of winter wheat using remote sensing based on semantic segmentation network

SUN Changjian, SHANG Yongfu, WANG Shiyan, DOU Xiaonan

Henan Institute of Geographic Information, Zhengzhou 450000, China

Received:2024-03-18 Published:2024-11-02

摘要/Abstract

摘要： 针对传统机器学习作物遥感分类模型泛化能力较弱等问题,本文评价并验证了不同语义分割网络在光谱特征和光谱+植被指数特征下的济源市冬小麦遥感分类模型的性能和分类精度。结果表明,较单一光谱特征,基于U-Net++和DeepLab V3+的光谱+植被指数特征模型损失函数和IoU值分别降低和提高了13.30%和7.83%、7.80%和5.54%。此外,基于U-Net++的2020—2023年冬小麦分类总体精度达93.47%～95.60%,较DeepLab V3+和随机森林分类的总体精度分别提高了0.12%～2.29%和4.84%～7.40%;景观度值也表明基于U-Net++的冬小麦分类结果具有更优的图斑完整度和紧凑度。最后,本文定量评价了不同年份冬小麦种植面积空间变化结果,为复杂地形条件下作物面积监测应用提供了方法支持。

关键词: 丘陵地区, 冬小麦, Sentinel-2, 语义分割网络, 随机森林

Abstract: To improve the weak generalization ability of traditional machine learning methods in remote sensing crop classification, winter wheat classification models that employs Sentinel-2 images with different feature selections and semantic segmentation networks are tested and evaluated in Jiyuan city, Henan province. The results show that compared to the spectral features, the model loss and IoU values of the DeepLab V3+and U-Net++ based on spectral and vegetation indices are reduced and improved by 13.30% and 7.83%, 7.80% and 5.54%, respectively. In addition, the overall accuracy of winter wheat classification results based on U-Net++from 2020 to 2023 is 93.47%～95.60%, which is 0.12%～2.29% and 4.84%～7.40% higher than that of DeepLab V3+ and random forest, respectively. Moreover, the landscape metrics values also indicate that the winter wheat classification results based on U-Net++network perform better patch integrity and compactness. Finally, the change data and spatial distribution of winter wheat based on U-Net++ from 2020 to 2023 are analyzed. It can provide methodological support for practical applications such as crop area monitoring under complex terrain conditions.

Key words: hilly areas, winter wheat, Sentinel-2, semantic segmentation network, random forest

中图分类号:

P237

孙常建, 尚永福, 王石岩, 窦小楠. 基于语义分割网络的冬小麦遥感分类及变化分析[J]. 测绘通报, 2024, 0(10): 151-156.

SUN Changjian, SHANG Yongfu, WANG Shiyan, DOU Xiaonan. Classification and change analysis of winter wheat using remote sensing based on semantic segmentation network[J]. Bulletin of Surveying and Mapping, 2024, 0(10): 151-156.

参考文献

[1] WANG Lijun,WANG Jiayao,LIU Zhenzhen,et al.Evaluation of a deep-learning model for multispectral remote sensing of land use and crop classification[J].The Crop Journal,2022,10(5):1435-1451.
[2] 赵晋陵,詹媛媛,王娟,等.基于SE-U-Net的冬小麦种植区域提取方法[J].农业机械学报,2022,53(9):189-196.
[3] 郭新,王乃江,张玲玲,等.基于Google Earth Engine平台的关中冬小麦面积时空变化监测[J].干旱地区农业研究,2020,38(3):275-280.
[4] WANG Lijun,WANG Jiayao,ZHANG Xiwang,et al.Deep segmentation and classification of complex crops using multi-feature satellite imagery[J].Computers and Electronics in Agriculture,2022,200:107249.
[5] CHAVES MICHEL E D,PICOLI MICHELLE C A,IEDA D S.Recent applications of landsat 8/OLI and sentinel-2/MSI for land use and land cover mapping:a systematic review[J].Remote Sensing,2020,12(18):3062.
[6] FORKUOR G,DIMOBE K,SERME I,et al.Landsat-8 vs.Sentinel-2:examining the added value of Sentinel-2's red-edge bands to land-use and land-cover mapping in Burkina Faso[J].GIScience & Remote Sensing,2018,55(3):331-354.
[7] 张旭辉,玉素甫江·如素力,仇忠丽,等.基于Sentinel-2时序数据的新疆焉耆盆地农作物遥感识别与评估[J].干旱区地理,2024,47(4):672-683.
[8] 张影,王珍,孙政,等.Sentinel-2红边波段在水稻识别中作用研究:以浙江省德清县为例[J].中国农业资源与区划,2021,42(12):144-153.
[9] 王利军,郭燕,贺佳,等.基于决策树和SVM的Sentinel-2A影像作物提取方法[J].农业机械学报,2018,49(9):146-153.
[10] ZHOU Zongwei,RAHMAN SIDDIQUEE M M,TAJBAKHSH N,et al.U-Net++:a nested U-net architecture for medical image segmentation[M]//Lecture Notes in Computer Science.Cham:Springer International Publishing,2018:3-11.
[11] 张海天.基于面向对象和改进U-Net++模型的复杂区域耕地提取研究[D].桂林:桂林理工大学,2022.
[12] TONG Xinyi,XIA Guisong,LU Qikai,et al.Land-cover classification with high-resolution remote sensing images using transferable deep models[J].Remote Sensing of Environment,2020,237:111322.
[13] PENG Daifeng,ZHANG Yongjun,GUAN Haiyan.End-to-end change detection for high resolution satellite images using improved U-Net++[J].Remote Sensing,2019,11(11):1382.
[14] 王超,王帅,陈晓,等.联合U-Net++和多级差分模块的多源光学遥感影像对象级变化检测[J].测绘学报,2023,52(2):283-296.
[15] CHEN Kaiqiang,FU Kun,YAN Menglong,et al.Semantic segmentation of aerial images with shuffling convolutional neural networks[J].IEEE Geoscience and Remote Sensing Letters,2018,15(2):173-177.
[16] WANG Lijun,BAI Yang,WANG Jiayao,et al.Histogram matching-based semantic segmentation model for crop classification with Sentinel-2 satellite imagery[J].GIScience & Remote Sensing,2023,60(1):2281142.
[17] KONG Yingying,LIU Yanjuan,YAN Biyuan,et al.A novel Deeplabv3+network for SAR imagery semantic segmentation based on the potential energy loss function of Gibbs distribution[J].Remote Sensing,2021,13(3):454.

基于语义分割网络的冬小麦遥感分类及变化分析

Classification and change analysis of winter wheat using remote sensing based on semantic segmentation network

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