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基于主被动遥感数据和面向对象的大蒜识别
引用本文:马战林,薛华柱,刘昌华,李长春,房旭,周俊利. 基于主被动遥感数据和面向对象的大蒜识别[J]. 农业工程学报, 2022, 38(2): 210-222
作者姓名:马战林  薛华柱  刘昌华  李长春  房旭  周俊利
作者单位:河南理工大学测绘与国土信息工程学院,焦作 454003;河南省遥感测绘院,郑州 450003
基金项目:国家自然科学基金面上项目(41721333)、河南省科技攻关重点项(192102310270)和河南理工大学博士基金资助项目(B2017-09)
摘    要:针对开封市大蒜种植破碎化程度高,光学数据难以高精度、快速提取问题.该研究基于谷歌地球引擎(Google EarthEngine,GEE)云平台、随机森林算法(Random Forest,RF)和面向对象方法,选择融合Sentinel-1卫星的后向散射系数与Sentinel-2卫星的光谱、光谱指数及纹理特征,分别应用10...

关 键 词:遥感  谷歌地球引擎  Sentinel卫星  随机森林  面向对象  大蒜
收稿时间:2021-09-01
修稿时间:2022-01-14

Identification of garlic based on active and passive remote sensing data and object-oriented technology
Ma Zhanlin,Xue Huazhu,Liu Changhu,Li Changchun,Fang Xu,Zhou Junli. Identification of garlic based on active and passive remote sensing data and object-oriented technology[J]. Transactions of the Chinese Society of Agricultural Engineering, 2022, 38(2): 210-222
Authors:Ma Zhanlin  Xue Huazhu  Liu Changhu  Li Changchun  Fang Xu  Zhou Junli
Affiliation:1. School of Surveying and Land Information Engineering, Henan Polytechnic University, Jiaozuo 454003, China;2. Institute of Remote Sensing and Surveying and Mapping of Henan, Zhengzhou 450003, China
Abstract:Abstract: Garlic as an important cash crop was widely planted in Henan, Shandong province and other areas. In the past few years, the price of garlic had fluctuated frequently and seriously affected farmers'' decision and enthusiasm of garlic plantation, which was not conducive to the healthy and sustainable development of the garlic market. Garlic crop planting was often mixed with other ground crops, making it difficult to quickly extract garlic with high precision based on optical remote sensing data. In this research, Kaifeng of Henan province with complex planting structure was selected as a study area. With the aim to further improve the identification accuracy and efficiency of fragmented garlic by using remote sensing data, an object-oriented method based on Google Earth Engine (GEE) platform and random forest (RF) algorithm was used by integrating the active and passive remote sensing data of Sentinel satellites. The normalized difference vegetation index (NDVI) time series data can reflect the phenological changes of the garlic and other crops, which can be used to improve the separability of garlic and other land cover types. Based on the maximum difference of NDVI and the features of RF algorithm, this paper selected the monthly mean Sentinel-2 optical data in March 2021. And the time series Sentinel-1 synthetic aperture radar (SAR) backscattering coefficients of monthly mean data was selected from November 2020 to May 2021. It included two steps before classification. The first one was to use the simple non-iterative clustering (SNIC) for integrating data segmentation and selected the best segmentation scale with the highest classification overall accuracy and kappa coefficient. The second one was to use the gray-level co-occurrence matrix (GLCM) algorithm selecting the best one within three neighborhood values (4,8,16) to calculate the seven texture features of synthetic optical data and use the principal components analysis (PCA) algorithm to reduce those data dimensions. Through integrating Sentinel passive and active remote sensing data of 10 m spatial resolution or 20 m spatial resolution with incorporating the vegetation red edge bands to explore the identify accuracy improvement of garlic on combining various features groups of spectral features, backscattering coefficients, vegetation index features and different principal component groups of texture features, the result showed that using the 10 m spatial resolution active and passive Sentinel remote sensing data, the highest classification overall accuracy and Kappa coefficient reached 94.54%, 0.93, and the producer''s and user''s accuracy of garlic were 97.83% and 96.38% at the SNIC segmentation scale of 5, GLCM neighborhood value of 4 and the first and second principal components of the 7 texture features. Using the 20 m spatial resolution active and passive Sentinel remote sensing data with three vegetation red edge bands, the highest classification overall accuracy and Kappa coefficient reached 94.14%, 0.92, and the producer''s and user''s accuracy of garlic were 95.72% and 98.81% at the SNIC segmentation scale of 3, GLCM neighborhood value of 4 and the first and second principal components of the 7 texture features. The producer''s and user''s accuracy of 20m spatial resolution Sentinel-2 data with three vegetation red edge bands were improved 0.49% and 4.38% compared with 10m spatial resolution data. The producer''s and user''s accuracy of 10 m resolution time series Sentinel-1 SAR data were improved 0.66% and 2.07% compared with 20m spatial resolution time series SAR data. Integrating Sentinel active and passive remote sensing data, which fully used the spectral and structural information, the overall accuracy and Kappa coefficient were higher than alone using the optical or time series SAR data. Moreover, the classification overall accuracy and Kappa coefficient was highest with integrating Sentinel passive and active remote sensing data at 10 m high spatial resolution. Therefore, the SNIC, GLCM, PCA, RF algorithm and GEE platform used in this paper had a good promotion value for accurate and efficient obtaining garlic planting area, especially for using GF satellites data to obtain the Four-Huaiqing Chinese medicine area.
Keywords:remote sensing   Google Earth Engine   Sentinel satellite   random forest   object-oriented   garlic
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