Researches on the extraction of winter wheat planting area using remote sensing method

doi:10.6046/gtzyyg.2013.04.02

Abstract
References
Related Articles
Metrics

Download: PDF(586 KB) HTML
Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks

Abstract Currently,the extraction of winter wheat area has become the key point of winter wheat growth monitoring and yield estimation. Therefore,how to improve the accuracy of winter wheat planting area retrieval is one of the important topics in agricultural remote sensing at present and in the future. The retrieval model should be varying with the spatial resolution of satellite image so as to accurately retrieve winter wheat planting area from remote sensing images,and this is one of the important points of remote sensing of winter wheat planting area. In this study,the winter wheat planting area retrieval models are grouped into 5 different types, i.e., visual interpretation and computer automatic classification,classification based on pixel,classification based on parcel,remote sensing interpretative model classification and classification based on texture. The main research methods were described and evaluated,and the problems existent in current research work and the future development of remote sensing method for estimation winter wheat planting area were discussed. The focusing of the attention on the estimation of winter wheat area in the district with complex terrain,high land fragmentation and complex planting structure,the combination of remote sensing data with GIS data and meteorological data, the integration of multi-source remote sensing data with multi-temporal remote sensing data,the combination of ground spectral measurement data with high spectral data,and the changing of the validation data constitute the study direction for improving the accuracy of winter wheat planting area retrieval.

Keywords thematic map update coastal wetlands change detection decision tree classification remote sensing

TP79

Issue Date: 21 October 2013

	Service

	E-mail this article
	E-mail Alert
	RSS
	Articles by authors

	WAN Jianhua
	LI Mei
	REN Guangbo
	MA Yi

Cite this article:

WAN Jianhua,LI Mei,REN Guangbo, et al. Researches on the extraction of winter wheat planting area using remote sensing method[J]. REMOTE SENSING FOR LAND & RESOURCES, 2013, 25(4): 8-15.

URL:

https://www.gtzyyg.com/EN/10.6046/gtzyyg.2013.04.02 OR https://www.gtzyyg.com/EN/Y2013/V25/I4/8

[1] 陈水森,柳钦火,陈良富,等.粮食作物播种面积遥感监测研究进展[J].农业工程学报,2005,21(6):166-171. Chen S S,Liu Q H,Chen L F,et al.Review of research advances in remote sensing monitoring of grain crop area[J].Transactions of the Chinese Society of Agricultural Engineering,2005,21(6):166-171.
[2] 赵莲,张锦水,胡潭高,等.变端元混合像元分解冬小麦种植面积测量方法[J].国土资源遥感,2011,23(1):66-72. Zhao L,Zhang J S,Hu T G,et al.The application of the dynamic endmember linear spectral unmixing model to winter wheat area estimation[J].Remote Sensing for Land and Resources,2011,23(1):66-72.
[3] 李卫国,蒋楠.基于面向对象分类的冬小麦种植面积提取[J].麦类作物学报,2012,32(4):701-705. Li W G,Jiang N.Extraction of winter wheat planting area by object-oriented classification method[J].Journal of Triticeae Crops,2012,32(4):701-705.
[4] 黄青,李丹丹,陈仲新,等.基于MODIS数据的冬小麦种植面积快速提取与长势监测[J].农业机械学报,2012,43(7):163-167. Huang Q,Li D D,Chen Z X,et al.Monitoring of planting area and growth condition of winter wheat in China based on MODIS data[J].Transactions of the Chinese Society for Agricultural Machinery,2012,43(7):163-167.
[5] 范磊,程永正,王来刚,等.基于多尺度分割的面向对象分类方法提取冬小麦种植面积[J].中国农业资源与区划,2010,31(6):44-51. Fan L,Cheng Y Z,Wang L G,et al.Estimation of winter wheat planting area using object-oriented method based on multi-scale segmentation[J].Chinese Journal of Agricultural Resources and Regional Planting,2010,31(6):44-51.
[6] 刘海启,金敏毓,龚维鹏.美国农业遥感技术应用状况概述[J].中国农业资源与区划,1999,20(2):56-60. Liu H Q,Jin M Y,Gong W P.Applications of remote sensing in agriculture in the United States[J].Chinese Journal of Agricultural Resources and Regional Planting,1999,20(2):56-60.
[7] 刘海启.欧盟MARS计划简介与我国农业遥感应用思路[J].中国农业资源与区划,1999,20(3):55-57. Liu H Q.The introduction of MARS plan of European commission and Chinese agriculture remote sensing application[J].Chinese Journal of Agricultural Resources and Regional Planting,1999,20(3):55-57.
[8] Julien Y,Sobrino J A,Jimünez-Mun ~ oz J C.Land use classification from multitemporal Landsat imagery using the yearly land cover dynamics(YLCD)method[J].International Journal of Applied Earth Observation and Geoinformation,2011,13(5):711-720.
[9] Quarmby N A, Milnes M, Hindle T L,et al.The use of multi-temporal NDVI measurements from AVHRR data for crop yield estimation and prediction[J].International Journal of Remote Sensing,1993,14(2): 199-210.
[10] Quarmby N A,Townshend J R G,Settle J J,et al.Linear mixture modeling applied to AVHRR data for crop area estimation[J].International Journal of Remote Sensing,1992,13(3):415-425.
[11] Turner M D,Congalton R G.Classification of multitemporal SPOT-XS satellite data for mapping rice fields on a West African flood plain[J].International Journal of Remote Sensing,1998,19(1):21-41.
[12] Kontoes C,Wilkinson G G,Burril A,et al.An experimental system for the integration of GIS data in knowledge based image analysis for remote sensing of agriculture[J].International Journal of Geographical Information Systems, 1993,7(3):247-262.
[13] Nidamanuri R R,Zbell B.Transferring spectral libraries of canopy reflectance for crop classification using hyperspectral remote sensing data[J].Biosystems Engineering,2011,110(3):231-246.
[14] Xavier B,Laurent V,Pierre D.Efficiency of crop identification based on optical and SAR image time series[J].Remote Sensing of Environment,2005,96(3/4):352-365.
[15] Inzana J,kusky T,Higgs G,et al.Supervised classifications of Landsat TM band ratio images and Landsat TM band ratio image with radar for geological interpretations of central Madagascar[J].Journal of African Earth Sciences,2003,37(1-2):59-72.
[16] Murthy C S,Raju P V,Badrinath K V S.Classification of wheat crop with multi-temporal images:Performance of maximum likelihood and artificial neural networks[J].International Journal of Remote sensing,2003,24(23):4871-4890.
[17] 邹金秋,陈佑启,Uchida S,等.利用Terra/MODIS数据提取冬小麦面积及精度分析[J].农业工程学报,2007,23(11):195-200. Zou J Q,Chen Y Q,Uchida S,et al.Method for extracting winter wheat area using Terra/MODIS data andits accuracy analysis[J].Transactions of the Chinese Society of Agricultural Engineering,2007,23(11):195-200.
[18] 李寄,黄进良,许文波.湖北省冬小麦种植面积遥感估算方法研究[J].世界科技研究与发展,2008,30(5):597-599. Li J,Huang J L,Xu W B.Study on method of estimating the winter wheat acreage using remote sensing of Hubei Province[J].World Sci-tech Research and Development,2008,30(5):597-599.
[19] 张群,胡春胜,陈素英,等.多时相遥感影像监测冬小麦种植面积的变化研究——以河北省三河市与大厂回族自治县为例[J].中国生态农业学报,2006,14(3):180-183. Zhang Q,Hu C S,Chen S Y,et al.Changes of winter wheat planting area detected by using multitemporal remote sensing images:A case study from Sanhe City and Hui Autonomous County of Dachang of Hebei Province[J].Chinese Journal of Eco-Agriculture,2006,14(3):180-183.
[20] 韩素芹,刘淑梅.EOS/MODIS卫星资料在监测冬小麦面积中的应用[J].天津农学院学报,2004,11(2):26-28. Han S Q,Liu S M.Application of MODIS data to monitor winter wheat acreage in Tianjin[J].Journal of Tianjin Agricultural College,2004,11(2):26-28.
[21] 赵英时.遥感应用分析原理与方法[M].北京:科学出版社,2003. Zhao Y S.The principle and method of analysis of remote sensing application[M].Beijing:Science Press,2003.
[22] 武永利,赵永强,靳宁,等.单时相MERSI数据在冬小麦种植面积监测中的应用[J].中国农学通报, 2011,27(14):127-131. Wu Y L,Zhao Y Q,Jin N,et al.Monitoring of winter wheat area based on mono temporal MERSI data[J].Chinese Agricultural Science Bulletin,2011,27(14):127-131.
[23] 刘磊,江东,徐敏,等.基于多光谱影像和专家决策法的作物分类研究[J].安徽农业科学,2011,39(25):15809-15811. Liu L,Jiang D,Xu M,et al.Crops classification based on multi-spectral image and decision tree method[J].Journal of Anhui Agricultural Sciences,2011,39(25):15809-15811.
[24] 行晓黎,许明魁,唐诗华,等.基于环境减灾卫星的遥感技术在农业统计中的应用——以北京冬小麦为例[J].城市勘测,2010,12(6):76-78. Xing X L,Xu M K,Tang S H,et al.Based on the environmental disaster mitigation satellite technology of remote sensing in agricultural application:Take the Beijing wheat as an example[J].Urban Geotechnical Investigation and Surveying,2010,12(6):76-78.
[25] 李苓苓,潘耀忠,张锦水,等.支持向量机与分类后验概率空间变化向量分析法相结合的冬小麦种植面积测量方法[J].农业工程学报,2010,26(9):210-217. Li L L,Pan Y Z,Zhang J S,et al.Method of winter wheat planting area estimation based on support vectormachine and post-classification changed vector analysis[J].Transactions of the Chinese Society of Agricultural Engineering,2010,26(9):210-217.
[26] 李晓松,吴波,范文义,等.基于光谱混合分析的荒漠化信息提取——以毛乌素沙地为例[J].林业科学研究,2006,19(2):192-198. Li X S,Wu B,Fan W Y,et al.Extraction of desertification information based on SMA:A case study in Mu Us sandland[J].Forest Research,2006,19(2):192-198.
[27] 张军.基于MODIS遥感数据的山东省济宁市冬小麦面积估算研究[D].南京:南京大学,2012. Zhang J.Estimation of winter wheat area in Jining City,Shandong Province with MODIS remote sensing data[D].Nanjing:Nanjing University,2012.
[28] 李素,李文正,周建军,等.ETM⁺影像亚像元级城市土地覆盖组分丰度提取——以南京市为例[J].地理与地理信息科学,2008,24(2):17-22. Li S,Li W Z,Zhou J J,et al.Urban land cover composition abundance extraction of sub-pixel level based on ETM⁺ image:A case study of Nanjing[J].Geography and Geo-Information Science,2008,24(2):17-22.
[29] 蔡薇,郭洪海,隋学艳,等.基于混合像元分解提取小麦种植面积的技术与方法研究[J].山东农业科学,2009(5):12-16. Cai W,Guo H H,Sui X Y,et al.Technology and method study for extracting wheat planting area based on mixed-pixel decomposition[J].Shandong Agricultural Sciences,2009(5):12-16.
[30] 许文波,张国平,范锦龙,等.利用MODIS遥感数据监测冬小麦种植面积[J].农业工程学报,2007,23(12):144-149. Xu W B,Zhang G P,Fan J L,et al.Remote sensing monitoring of winter wheat areas using MODIS data[J].Transactions of the Chinese Society of Agricultural Engineering,2007,23(12):144-149.
[31] 武永利,王云峰,张建新,等.应用线性混合模型遥感监测冬小麦种植面积[J].农业工程学报,2009,25(2):136-140. Wu Y L, Wang Y F,Zhang J X,et al.Linear mixture modeling applied to remote sensing monitoring of winter wheat areas[J].Transactions of the Chinese Society of Agricultural Engineering,2009,25(2):136-140.
[32] 刘茜,徐希孺.航空影像与TM影像的配准及用航空影像对TM进行作物估产方法的精度检验[J].环境遥感,1994,9(4):272-279. Liu Q,Xu X R.Matching of airphotos with TM images and precision testing of crop area estimation by means of TM using airphotos[J].Remote Sensing of Environment China,1994,9(4):272-279.
[33] 李乐,张锦水,朱文泉,等.地块支持下MODIS-NDVI时间序列冬小麦种植面积测量研究[J].光谱学与光谱分析,2011,31(5):1379-1383. Li L,Zhang J S,Zhu W Q,et al.Winter wheat area estimation with MODIS-NDVI time series based on parcel[J].Spectroscopy and Spectral Analysis,2011,31(5):1379-1383.
[34] 王启田,林祥国,王志军,等.利用面向对象分类方法提取冬小麦种植面积的研究[J].测绘科学,2008,33(2):143-146. Wang Q T,Lin X G,Wang Z J,et al.Extraction of winter wheat planting area by object-oriented classification method[J].Science of Surveying and Mapping,2008,33(2):143-146.
[35] 朱长明,骆剑承,沈占锋,等.基于地块特征基元与多时相遥感数据的冬小麦播种面积快速提取[J].农业工程学报,2011,27(9):94-99. Zhu C M,Luo J C,Shen Z F,et al.Winter wheat planting area extraction using multi-temporal remote sensing data based on filed parcel characteristic[J].Transactions of the Chinese Society of Agricultural Engineering,2011,27(9):94-99.
[36] 张建国,李宪文,吴延磊.面向对象的冬小麦种植面积遥感估算研究[J].农业工程学报,2008,24(5):156-160. Zhang J G,Li X W,Wu Y L.Object oriented estimation of winter wheat planting area using remote sensing data[J].Transactions of the Chinese Society of Agricultural Engineering,2008,24(5):156-160.
[37] 张健康,程彦培,张发旺,等.基于多时相遥感影像的作物种植信息提取[J].农业工程学报,2012,28(2):134-141. Zhang J K,Cheng Y P,Zhang F W,et al.Crops planting information extraction based on multi-temporal remote sensing images[J].Transactions of the Chinese Society of Agricultural Engineering,2012,28(2):134-141.
[38] 王茂新,裴志远,吴全,等.用NOAA图像监测冬小麦面积的方法研究[J].农业工程学报,1998,14(3):84-88. Wang M X,Pei Z Y,Wu Q,et al.Winter-wheat sown area estimation using NOAA-AVHRR data[J].Transactions of the Chinese Society of Agricultural Engineering,1998,14(3):84-88.
[39] 王云峰,沈润平.基于MODIS数据的丘陵地区冬小麦种植面积提取研究[J].安徽农业科学,2009,37(33):16694-16696. Wang Y F,Shen R P.Study on the planting area extraction of winter wheat based on MODIS data[J].Journal of Anhui Agricultural Sciences,2009,37(33):16694-16696.
[40] 王云峰,沈润平,田国珍.基于MODIS数据光谱突变法提取冬小麦种植面积研究[J].内蒙古气象,2009(6):18-21. Wang Y F,Shen R P,Tian G Z.Study on extracting winter wheat planting area based on MODIS data by spectral mutation[J].Meteorology Journal of Inner Mongolia,2009(6):18-21.
[41] 竞霞,刘良云,张超,等.利用多时相NDVI监测京郊冬小麦种植信息[J].遥感技术与应用,2005, 20(2):238-242. Jing X,Liu L Y,Zhang C,et al.Monitoring planting information of Beijing winter wheat utilizing multi-temporal NDVI[J].Remote Sensing Technology and Application,2005,20(2):238-242.
[42] 黄青,吴文斌,邓辉,等.2009年江苏省冬小麦和水稻种植面积信息遥感提取及长势监测[J].江苏农业科学,2010(6):508-511. Huang Q,Wu W B,Deng H,et al.Extraction of winter wheat and rice planting area and growing monitoring using remote sensing method in Jiangsu Province 2009[J].Jiangsu Agricultural Sciences,2010(6):508-511.
[43] 杨小唤,张香平,江东.基于MODIS时序NDVI特征值提取多作物播种面积的方法[J].资源科学,2004,26(6):17-22. Yang X H,Zhang X P,Jiang D.Extraction of multi-crop planting areas from MODIS data[J].Resources Science,2004,26(6):17-22.
[44] 乔红波,张慧,程登发.不同时序EOS/MODIS-NDVI监测河南省冬小麦面积[J].安徽农业科学,2008, 36(27):11940-11941. Qiao H B,Zhang H,Cheng D F.Application of EOS/MODIS-NDVI at different time sequences on monitoring winter wheat acreage in Henan Province[J].Journal of Anhui Agricultural Sciences,2008,36(27):11940-11941.
[45] 康凌艳,雷玉平,郑力,等.在GIS支持下利用MODIS数据监测多种作物和果树种植面积[J].遥感技术与应用,2007,22(3):361-366. Kang L Y,Lei Y P,Zheng L,et al.Vegetation classification based on MODIS data and the accuracy evaluation in the pixel scale[J].Remote Sensing Technology and Application,2007,22(3):361-366.
[46] 李颖,陈秀万,段红伟,等.多源多时相遥感数据在冬小麦识别中的应用研究[J].地理与地理信息科学,2010,26(4):47-49. Li Y,Chen X W,Duan H W,et al.Application of multi-source and multi-temporal remote sensing data in winter wheat identification[J].Geography and Geo-Information Science,2010,26(4):47-49.
[47] 王正海,张红军.SAM和决策树结合的Hyperion数据分类方法[J].武汉科技大学学报:自然科学版,2006,29(5):478-481. Wang Z H,Zhang H J.A classification model for remote sensing images based on SAM and decision tree[J].Journal of Wuhan University of Science and Technology,2006,29(5):478-481.
[48] 韩涛,李耀辉,郭铌.基于EOS/MODIS资料的沙尘遥感监测模型研究[J].高原气象,2005,24(5): 757-764. Han T,Li Y H,Guo N.Research on dust storm monitoring model based on EOS/MODIS data[J].Plateau Meteorology,2005,24(5):757-764.
[49] 冯美臣,杨武德,张东彦,等.基于TM和MODIS数据的水旱地冬小麦面积提取和长势监测[J].农业工程学报,2009,25(3):103-109. Feng M C,Yang W D,Zhang D Y,et al.Monitoring planting area and growth situation of irrigation-land and dry-land winter wheat based on TM and MODIS[J].Transactions of the Chinese Society of Agricultural Engineering,2009,25(3):103-109.
[50] 赵晶晶,刘良云,徐自为,等.华北平原冬小麦总初级生产力的遥感监测[J].农业工程学报,2011,27(增1):346-351. Zhao J J,Liu L Y,Xu Z W,et al.Monitoring winter wheat GPP in Huabei Plain using remote sensing and flux tower[J].Transactions of the Chinese Society of Agricultural Engineering,2011,27(s1):346-351.
[51] 秦元伟,赵庚星,姜曙千,等.基于中高分辨率卫星遥感数据的县域冬小麦估产[J].农业工程学报,2009,25(7):118-123. Qin Y W,Zhao G X,Jiang S Q,et al.Winter wheat yield estimation based on high and moderate resolution remote sensing data at county level[J].Transactions of the Chinese Society of Agricultural Engineering,2009,25(7):118-123.
[52] 王来刚,郑国清,陈怀亮,等.基于HJ-CCD影像的河南省冬小麦种植面积变化全覆盖监测[J].中国农业资源与区划,2011,32(2):58-62. Wang L G,Zheng G Q,Chen H L,et al.Monitoring the change of global winter wheat planting area in Henan Province based on HJ-CCD image[J].Chinese Journal of Agricultural Resources and Regional Planning,2011,32(2):58-62.
[53] 贾建华,刘良云,竞霞,等.基于多时相MODIS监测冬小麦的种植面积[J].遥感信息,2005(6): 49-51. Jia J H,Liu L Y,Jing X,et al.Monitoring planting area of winter wheat based on multi-temporal MODIS images[J].Remote Sensing Information,2005(6):49-51.
[54] 顾晓鹤,潘耀忠,何馨,等.以地块分类为核心的冬小麦种植面积遥感估算[J].遥感学报,2010(4):789-805. Gu X H,Pan Y Z,He X,et al.Measurement of sown area of winter wheat based on per-field classification and remote sensing imagery[J].Journal of Remote Sensing,2010(4):789-805.
[55] 朱秀芳,贾斌,潘耀忠,等.不同特征信息对TM尺度冬小麦面积测量精度影响研究[J].农业工程学报, 2007,23(9):122-129. Zhu X F,Jia B,Pan Y Z,et al.Effects of various feature information on the accuracy of winter wheat planting area measurement[J].Transactions of the Chinese Society of Agricultural Engineering,2007,23(9):122-129.
[56] 张楠楠.黄河中下游引黄灌区作物种植结构的遥感监测方法研究[D].阜新:辽宁工程技术大学,2008. Zhang N N.Research of remote sensing monitoring for the crops planting structure in an irrigation district along the lower Yellow River[D].Fuxin:Liaoning Technical University,2008.
[57] 齐腊,赵春江,李存军,等.基于多时相中巴资源卫星影像的冬小麦分类精度[J].应用生态学报,2008,19(10):2201-2208. Qi L,Zhao C J,Li C J,et al.Accuracy of winter wheat identification based on multi-temporal CBERS-02 images[J].Chinese Journal of Applied Ecology,2008,19(10):2201-2208.
[58] 何浩,朱秀芳,潘耀忠,等.尺度变化对冬小麦种植面积遥感测量区域精度影响的研究[J].遥感学报, 2008,12(1):168-175. He H,Zhu X F,Pan Y Z,et al.Study on scale issues in measurement of winter wheat plant area by remote sensing[J].Journal of Remote Sensing,2008,12(1):168-175.

[1]	LIU Wen, WANG Meng, SONG Ban, YU Tianbin, HUANG Xichao, JIANG Yu, SUN Yujiang. Surveys and chain structure study of potential hazards of ice avalanches based on optical remote sensing technology: A case study of southeast Tibet[J]. Remote Sensing for Natural Resources, 2022, 34(1): 265-276.
[2]	WANG Qian, REN Guangli. Application of hyperspectral remote sensing data-based anomaly extraction in copper-gold prospecting in the Solake area in the Altyn metallogenic belt, Xinjiang[J]. Remote Sensing for Natural Resources, 2022, 34(1): 277-285.
[3]	LYU Pin, XIONG Liyuan, XU Zhengqiang, ZHOU Xuecheng. FME-based method for attribute consistency checking of vector data of mines obtained from remote sensing monitoring[J]. Remote Sensing for Natural Resources, 2022, 34(1): 293-298.
[4]	ZHANG Daming, ZHANG Xueyong, LI Lu, LIU Huayong. Remote sensing image segmentation based on Parzen window density estimation of super-pixels[J]. Remote Sensing for Natural Resources, 2022, 34(1): 53-60.
[5]	XUE Bai, WANG Yizhe, LIU Shuhan, YUE Mingyu, WANG Yiying, ZHAO Shihu. Change detection of high-resolution remote sensing images based on Siamese network[J]. Remote Sensing for Natural Resources, 2022, 34(1): 61-66.
[6]	PAN Jianping, XU Yongjie, LI Mingming, HU Yong, WANG Chunxiao. Research and development of automatic detection technologies for changes in vegetation regions based on correlation coefficients and feature analysis[J]. Remote Sensing for Natural Resources, 2022, 34(1): 67-75.
[7]	SONG Renbo, ZHU Yuxin, GUO Renjie, ZHAO Pengfei, ZHAO Kexin, ZHU Jie, CHEN Ying. A method for 3D modeling of urban buildings based on multi-source data integration[J]. Remote Sensing for Natural Resources, 2022, 34(1): 93-105.
[8]	LI Weiguang, HOU Meiting. A review of reconstruction methods for remote-sensing-based time series data of vegetation and some examples[J]. Remote Sensing for Natural Resources, 2022, 34(1): 1-9.
[9]	DING Bo, LI Wei, HU Ke. Inversion of total suspended matter concentration in Maowei Sea and its estuary, Southwest China using contemporaneous optical data and GF SAR data[J]. Remote Sensing for Natural Resources, 2022, 34(1): 10-17.
[10]	GAO Qi, WANG Yuzhen, FENG Chunhui, MA Ziqiang, LIU Weiyang, PENG Jie, JI Yanzhen. Remote sensing inversion of desert soil moisture based on improved spectral indices[J]. Remote Sensing for Natural Resources, 2022, 34(1): 142-150.
[11]	ZHANG Qinrui, ZHAO Liangjun, LIN Guojun, WAN Honglin. Ecological environment assessment of three-river confluence in Yibin City using improved remote sensing ecological index[J]. Remote Sensing for Natural Resources, 2022, 34(1): 230-237.
[12]	HE Peng, TONG Liqiang, GUO Zhaocheng, TU Jienan, WANG Genhou. A study on hidden risks of glacial lake outburst floods based on relief amplitude: A case study of eastern Shishapangma[J]. Remote Sensing for Natural Resources, 2022, 34(1): 257-264.
[13]	YU Xinli, SONG Yan, YANG Miao, HUANG Lei, ZHANG Yanjie. Multi-model and multi-scale scene recognition of shipbuilding enterprises based on convolutional neural network with spatial constraints[J]. Remote Sensing for Natural Resources, 2021, 33(4): 72-81.
[14]	LI Yikun, YANG Yang, YANG Shuwen, WANG Zihao. A change vector analysis in posterior probability space combined with fuzzy C-means clustering and a Bayesian network[J]. Remote Sensing for Natural Resources, 2021, 33(4): 82-88.
[15]	AI Lu, SUN Shuyi, LI Shuguang, MA Hongzhang. Research progress on the cooperative inversion of soil moisture using optical and SAR remote sensing[J]. Remote Sensing for Natural Resources, 2021, 33(4): 10-18.

Viewed

Full text

Abstract

Cited

Shared

Discussed