基于NDVI与EVI的作物长势监测研究
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摘要
基于2015年大气校正后的时间序列Landsat8影像,研究了归一化植被指数NDVI与增强型植被指数EVI随植被覆盖度增加的变化规律,定量分析了二者监测低、中、高植被覆盖的差异,比较分析了NDVI和EVI分布频率曲线差异及时间序列曲线差异。结果表明:地表刚出现植被时,NDVI和EVI的增加速度最快,随着地表植被覆盖度的增加,NDVI与EVI的增加速度减缓。低植被覆盖下NDVI的增加速度大于EVI,中等植被覆盖下NDVI和EVI的增加速度接近,高植被覆盖下NDVI的增加速度小于EVI,不同植被覆盖下的NDVI值始终大于EVI值。NDVI和EVI分布频率曲线能描述不同植被覆盖度像元数量和随时间的变化。NDVI和EVI时间序列曲线能清晰反映一种作物的长势变化规律及不同作物在同一时期的长势差异。在作物生长初期或低植被覆盖下,NDVI、EVI都偏高估计植被覆盖度,NDVI估计值略高于EVI的估计值。在作物生育中期或中等植被覆盖下,二者对植被描述能力相似。在作物生育高峰期或高植被覆盖下,监测作物长势变化EVI比NDVI更敏感。综上所述,监测作物时可根据作物生育期植被覆盖度变化特点合理选取NDVI和EVI植被指数,也可同时选用NDVI和EVI两种植被指数互为补充。
Based on time series Landsat8 images of atmospheric collected in 2015,the change rules of normalized vegetation index( NDVI) and enhanced vegetation index( EVI) with the increase of vegetation coverage were studied. Their monitoring vegetation cover differences were analyzed quantitatively. The differences of NDVI and EVI distribution frequency curves and the differences of NDVI and EVI time series curves were analyzed. The results showed that NDVI and EVI were increased most rapidly when vegetation appeared on the surface,and with the increase of surface vegetation coverage,the increase rate of NDVI and EVI slowed a descending trend. NDVI with low vegetation coverage was increased faster than EVI,NDVI with medium vegetation coverage was close to EVI,and NDVI with high vegetation coverage was increased lower than EVI. Under different vegetation coverages,NDVI value was always greater than EVI value. NDVI and EVI distribution frequency curves can describe the number of pixels of different vegetation coverage and the change with time. NDVI and EVI time series curves can clearly reflect the growth change rule of a crop and the growth difference of different crops in the same period. The following conclusions were drawn: in the early stage of crops growth or under low vegetation coverage,NDVI and EVI overestimated vegetation coverage,and estimated value of NDVI was slightly higher than that of EVI's. Their ability to describe vegetation was similar in the middle growth stage or in the middle vegetation coverage. EVI was more sensitive than NDVI to monitor crops growth during crops growth peak or under high vegetation coverage. To sum up,NDVI and EVI may be reasonably selected according to the change characteristics of vegetation coverage during crops growth period,and NDVI and EVI may also be used to supplement each other.
Based on time series Landsat8 images of atmospheric collected in 2015,the change rules of normalized vegetation index( NDVI) and enhanced vegetation index( EVI) with the increase of vegetation coverage were studied. Their monitoring vegetation cover differences were analyzed quantitatively. The differences of NDVI and EVI distribution frequency curves and the differences of NDVI and EVI time series curves were analyzed. The results showed that NDVI and EVI were increased most rapidly when vegetation appeared on the surface,and with the increase of surface vegetation coverage,the increase rate of NDVI and EVI slowed a descending trend. NDVI with low vegetation coverage was increased faster than EVI,NDVI with medium vegetation coverage was close to EVI,and NDVI with high vegetation coverage was increased lower than EVI. Under different vegetation coverages,NDVI value was always greater than EVI value. NDVI and EVI distribution frequency curves can describe the number of pixels of different vegetation coverage and the change with time. NDVI and EVI time series curves can clearly reflect the growth change rule of a crop and the growth difference of different crops in the same period. The following conclusions were drawn: in the early stage of crops growth or under low vegetation coverage,NDVI and EVI overestimated vegetation coverage,and estimated value of NDVI was slightly higher than that of EVI's. Their ability to describe vegetation was similar in the middle growth stage or in the middle vegetation coverage. EVI was more sensitive than NDVI to monitor crops growth during crops growth peak or under high vegetation coverage. To sum up,NDVI and EVI may be reasonably selected according to the change characteristics of vegetation coverage during crops growth period,and NDVI and EVI may also be used to supplement each other.
引文
[1]王鹏新,WANG Zhengming,龚健雅,等.基于植被指数和土地表面温度的干旱监测模型[J].地球科学进展,2003,18(8):527-533.WANG Pengxin,WANG Zhengming,GONG Jianya,et al.Advances in drought monitoring by using remotely sensed normalized difference vegetation index and land surface temperature products[J].Advances in Earth Science,2003,18(8):527-533.(in Chinese)
[2]林玉英,胡喜生,邱荣祖,等.基于Landsat影像的NDVI对植被与影响因子交互耦合的响应[J/OL].农业机械学报,2018,49(10):212-219.LIN Yuying,HU Xisheng,QIU Rongzu,et al.Responses Landsat-based NDVI to the interaction of vegetation and influencing factors[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2018,49(10):212-219.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20181024&flag=1.DOI:10.6041/j.issn.1000-1298.2018.10.024.(in Chinese)
[3]杨嘉,郭妮,黄蕾诺,等.西北地区MODIS-NDVI指数饱和问题分析[J].高原气象,2008,27(4):896-903.YANG Jia,GUO Ni,HUANG Leinuo,et al.Analyses on MODIS-NDVI index saturation in northwest China[J].Plateau Meteorology,2008,27(4):896-903.(in Chinese)
[4]黄健熙,侯矞焯,武洪峰,等.基于时间序列MODIS的农作物类型空间制图方法[J/OL].农业机械学报,2017,48(10):142-147.HUANG Jianxi,HOU Yuzhuo,WU Hongfeng,et al.Crop type mapping method based on times-series MODIS data in Heilongjiang Province[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2017,48(10):142-147.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20171017&flag=1.DOI:10.6041/j.issn.1000-1298.2017.10.017.(in Chinese)
[5]GUSSO A,ARVOR D,DUCATI J R,et al.Assessing the MODIS crop detection algorithm for soybean crop area mapping and Expansion in the Mato Grosso State,Brazil[J].The Scientific World Journal,2014,2014(1):1-9.
[6]DAMIEN A,MILTON J,DUBREUIL V,et al.Classification of MODIS EVI time series for crop mapping in the state of Mato Grosso,Brazil[J].International Journal of Remote Sensing,2011,32(22):7847-7871.
[7]申健,常庆瑞,李粉玲,等.基于时序NDVI的关中地区冬小麦种植信息遥感提取[J/OL].农业机械学报,2017,48(3):215-220.SHEN Jian,CHANG Qingrui,LI Fenling,et al.Extraction of winter wheat information based on time-series NDVI in Guanzhong area[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2017,48(3):215-220.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20170327&flag=1.DOI:10.6041/j.issn.1000-1298.2017.03.027.(in Chinese)
[8]侯学会,隋学艳,姚慧敏,等.基于物候信息的山东省冬小麦长势遥感监测[J].国土资源遥感,2018,30(2):171-177.HOU Xuehui,SUI Xueyan,YAO Huimin,et al.Study of the growth condition of winter wheat Shandong Province based on penology[J].Remote Sensing for Land and Resources,2018,30(2):171-177.(in Chinese)
[9]胡玉福,蒋双龙,刘宇,等.基于RS的安宁河上游植被覆盖时空变化研究[J/OL].农业机械学报,2014,45(5):205-215.HU Yufu,JIANG Shuanglong,LIU Yu,et al.Temporal and spatial variation coverage on upper Anning river based on RS[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2014,45(5):205-215.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20140532&flag=1.DOI:10.6041/j.issn.1000-1298.2014.05.032.(in Chinese)
[10]毛志春,宋宇,李蒙蒙.基于MODIS反演数据的河套地区荒漠化研究[J].北京大学学报(自然科学版),2015,51(6):1102-1110.MAO Zhichun,SONG Yu,LI Mengmeng.Research of the desertification in Hetao Area based on MODIS inversion data[J].Acta Scientiarum Naturalium Universitatis Pekinensis,2015,51(6):1102-1110.(in Chinese)
[11]张圣微,张睿,刘廷玺,等.锡林郭勒草原植被覆盖度时空动态与影响因素分析[J/OL].农业机械学报,2017,48(3):253-260.ZHANG Shengwei,ZHANG Rui,LIU Tingxi,et al.Dynamics of fractional vegetation cover and its influence factors in Xilingol steppe[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2017,48(3):253-260.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20170332&flag=1.DOI:10.6041/j.issn.1000-1298.2017.03.032.(in Chinese)
[12]牛亚晓,张立元,韩文霆,等.基于无人机遥感与植被指数的冬小麦覆盖度提取方法[J/OL].农业机械学报,2018,49(4):212-221.NIU Yaxiao,ZHANG Liyuan,HAN Wenting,et al.Fractional vegetation cover extraction method of winter wheat based on UAVremote sensing and vegetation index[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2018,49(4):212-221.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20180424&flag=1.DOI:10.6041/j.issn.1000-1298.2018.04.024.(in Chinese)
[13]张雅,尹小君,王伟强,等.基于Landsat 8 OLI遥感影像的天山北坡草地地上生物量估算[J].遥感技术与应用,2017,32(6):1012-1021.ZHANG Ya,YIN Xiaojun,WANG Weiqiang,et al.Estimation of grassland aboveground biomass using Landsat 8 OLI satellite image in the northern hillside of Tianshan mountain[J].Remote Sensing Technology and Application,2017,32(6):1012-1021.(in Chinese)
[14]黄健熙,罗倩,刘晓暄,等.基于时间序列MODIS NDVI的冬小麦产量预测方法[J/OL].农业机械学报,2016,47(2):295-301.HUANG Jianxi,LUO Qian,LIU Xiaoxuan,et al.Winter wheat yield forecasting based on time series of MODIS NDVI[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2016,47(2):295-301.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20160239&flag=1.DOI:10.6041/j.issn.1000-1298.2016.02.039.(in Chinese)
[15]郭妮.植被指数及其研究进展[J].干旱气象,2003,21(4):71-75.GUO Ni.Vegetation index and its advances[J].Arid Meteorology,2003,21(4):71-75.(in Chinese)
[16]王正兴,刘闯,HUETE A.植被指数研究进展从AVHRR-NDVI到MODIS-EVI[J].生态学报,2003,23(5):979-987.WANG Zhengxing,LIU Chuang,HUETE A.From AVHRR-NDVI to MODIS-EVI:advances in vegetation index research[J].Acta Ecologica Sinica,2003,23(5):979-987.(in Chinese)
[17]王正兴,刘闯,陈文波,等.MODIS增强型植被指数EVI与NDVI初步比较[J].武汉大学学报(信息科学版),2006,31(5):407-410.WANG Zhengxing,LIU Chuang,CHEN Wenbo,et al.Preliminary comparison of MODIS NDVI and MODIS EVI in Eastern Asia[J].Geomatics and Information Science of Wuhan University,2006,31(5):407-410.(in Chinese)
[18]李红军,郑力,雷玉萍,等.基于EOS/MODIS数据的NDVI与EVI比较研究[J].地理科学进展,2007,26(1):26-32.LI Hongjun,ZHENG Li,LEI Yuping,et al.Comparison of NDVI and EVI based on EOS/MODIS data[J].Progress in Geography,2007,26(1):26-32.(in Chinese)
[19]李文梅,谭志豪,李文娟,等.MODIS NDVI与MODIS EVI的比较分析[J].遥感信息,2010(6):73-78.LI Wenmei,TAN Zhihao,LI Wenjuan,et al.Comparison and analysis of MODIS NDVI and MODIS EVI[J].Remote Sensing Information,2010(6):73-78.(in Chinese)
[20]左丽君,张增祥,董婷婷,等.MODIS/NDVI和MODIS/EVI在耕地信息提取中的应用及对比分析[J].农业工程学报,2008,24(3):167-172.ZUO Lijun,ZHANG Zengxiang,DONG Tingting,et al.Application of MODIS/NDVI and MODIS/EVI to extracting the information of cultivated land and comparison analysis[J].Transactions of the CSAE,2008,24(3):167-172.(in Chinese)
[21]朱林富,谢世友,杨华,等.基于MODIS-EVI的重庆植被覆盖时空分异特征研究[J].生态学报,2018,38(19):6992-7002.ZHU Linfu,XIE Shiyou,YANG Hua,et al.Study on the spatial-temporal variability of vegetation coverage based on MODIS-EVIin Chongqing[J].Acta Ecologica Sinica,2018,38(19):6992-7002.(in Chinese)
[22]米兆荣,张耀生,赵新全,等.NDVI和EVI在高寒草地牧草鲜质量估算和植被动态监测中的比较[J].草业科学,2010,27(6):13-19.(in Chinese)MI Zhaorong,ZHANG Yaosheng,ZHAO Xinquan,et al.Comparison NDVI with EVI in the herbage fresh weight estimation and vegetation dynamics for alpine grassland[J].Pratacultural Science,2010,27(6):13-19.(in Chinese)
[23]廖靖,覃先林,周汝良.利用2种植被指数监测中国6种典型森林生长期的比较研究[J].西南林业大学学报,2014,33(3):57-61.LIAO Jing,QIN Xianlin,ZHOU Ruliang.Comparative analysis of the growing season of typical forest using two vegetation indices[J].Journal of Southwest Forestry,2014,33(3):57-61.(in Chinese)
[24]LIU H Q,HUETE A R.A feedback based modification of the NDVI to minimize canopy background and atmospheric noise[J].IEEE Tansactions on Geoscience&Remote Sensing,1995,33(2):457-465.
[25]赵英时.遥感应用分析原理与方法[M].北京:科学出版社,2009.
[2]林玉英,胡喜生,邱荣祖,等.基于Landsat影像的NDVI对植被与影响因子交互耦合的响应[J/OL].农业机械学报,2018,49(10):212-219.LIN Yuying,HU Xisheng,QIU Rongzu,et al.Responses Landsat-based NDVI to the interaction of vegetation and influencing factors[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2018,49(10):212-219.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20181024&flag=1.DOI:10.6041/j.issn.1000-1298.2018.10.024.(in Chinese)
[3]杨嘉,郭妮,黄蕾诺,等.西北地区MODIS-NDVI指数饱和问题分析[J].高原气象,2008,27(4):896-903.YANG Jia,GUO Ni,HUANG Leinuo,et al.Analyses on MODIS-NDVI index saturation in northwest China[J].Plateau Meteorology,2008,27(4):896-903.(in Chinese)
[4]黄健熙,侯矞焯,武洪峰,等.基于时间序列MODIS的农作物类型空间制图方法[J/OL].农业机械学报,2017,48(10):142-147.HUANG Jianxi,HOU Yuzhuo,WU Hongfeng,et al.Crop type mapping method based on times-series MODIS data in Heilongjiang Province[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2017,48(10):142-147.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20171017&flag=1.DOI:10.6041/j.issn.1000-1298.2017.10.017.(in Chinese)
[5]GUSSO A,ARVOR D,DUCATI J R,et al.Assessing the MODIS crop detection algorithm for soybean crop area mapping and Expansion in the Mato Grosso State,Brazil[J].The Scientific World Journal,2014,2014(1):1-9.
[6]DAMIEN A,MILTON J,DUBREUIL V,et al.Classification of MODIS EVI time series for crop mapping in the state of Mato Grosso,Brazil[J].International Journal of Remote Sensing,2011,32(22):7847-7871.
[7]申健,常庆瑞,李粉玲,等.基于时序NDVI的关中地区冬小麦种植信息遥感提取[J/OL].农业机械学报,2017,48(3):215-220.SHEN Jian,CHANG Qingrui,LI Fenling,et al.Extraction of winter wheat information based on time-series NDVI in Guanzhong area[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2017,48(3):215-220.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20170327&flag=1.DOI:10.6041/j.issn.1000-1298.2017.03.027.(in Chinese)
[8]侯学会,隋学艳,姚慧敏,等.基于物候信息的山东省冬小麦长势遥感监测[J].国土资源遥感,2018,30(2):171-177.HOU Xuehui,SUI Xueyan,YAO Huimin,et al.Study of the growth condition of winter wheat Shandong Province based on penology[J].Remote Sensing for Land and Resources,2018,30(2):171-177.(in Chinese)
[9]胡玉福,蒋双龙,刘宇,等.基于RS的安宁河上游植被覆盖时空变化研究[J/OL].农业机械学报,2014,45(5):205-215.HU Yufu,JIANG Shuanglong,LIU Yu,et al.Temporal and spatial variation coverage on upper Anning river based on RS[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2014,45(5):205-215.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20140532&flag=1.DOI:10.6041/j.issn.1000-1298.2014.05.032.(in Chinese)
[10]毛志春,宋宇,李蒙蒙.基于MODIS反演数据的河套地区荒漠化研究[J].北京大学学报(自然科学版),2015,51(6):1102-1110.MAO Zhichun,SONG Yu,LI Mengmeng.Research of the desertification in Hetao Area based on MODIS inversion data[J].Acta Scientiarum Naturalium Universitatis Pekinensis,2015,51(6):1102-1110.(in Chinese)
[11]张圣微,张睿,刘廷玺,等.锡林郭勒草原植被覆盖度时空动态与影响因素分析[J/OL].农业机械学报,2017,48(3):253-260.ZHANG Shengwei,ZHANG Rui,LIU Tingxi,et al.Dynamics of fractional vegetation cover and its influence factors in Xilingol steppe[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2017,48(3):253-260.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20170332&flag=1.DOI:10.6041/j.issn.1000-1298.2017.03.032.(in Chinese)
[12]牛亚晓,张立元,韩文霆,等.基于无人机遥感与植被指数的冬小麦覆盖度提取方法[J/OL].农业机械学报,2018,49(4):212-221.NIU Yaxiao,ZHANG Liyuan,HAN Wenting,et al.Fractional vegetation cover extraction method of winter wheat based on UAVremote sensing and vegetation index[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2018,49(4):212-221.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20180424&flag=1.DOI:10.6041/j.issn.1000-1298.2018.04.024.(in Chinese)
[13]张雅,尹小君,王伟强,等.基于Landsat 8 OLI遥感影像的天山北坡草地地上生物量估算[J].遥感技术与应用,2017,32(6):1012-1021.ZHANG Ya,YIN Xiaojun,WANG Weiqiang,et al.Estimation of grassland aboveground biomass using Landsat 8 OLI satellite image in the northern hillside of Tianshan mountain[J].Remote Sensing Technology and Application,2017,32(6):1012-1021.(in Chinese)
[14]黄健熙,罗倩,刘晓暄,等.基于时间序列MODIS NDVI的冬小麦产量预测方法[J/OL].农业机械学报,2016,47(2):295-301.HUANG Jianxi,LUO Qian,LIU Xiaoxuan,et al.Winter wheat yield forecasting based on time series of MODIS NDVI[J/OL].Transactions of the Chinese Society for Agricultural Machinery,2016,47(2):295-301.http:∥www.j-csam.org/jcsam/ch/reader/view_abstract.aspx?file_no=20160239&flag=1.DOI:10.6041/j.issn.1000-1298.2016.02.039.(in Chinese)
[15]郭妮.植被指数及其研究进展[J].干旱气象,2003,21(4):71-75.GUO Ni.Vegetation index and its advances[J].Arid Meteorology,2003,21(4):71-75.(in Chinese)
[16]王正兴,刘闯,HUETE A.植被指数研究进展从AVHRR-NDVI到MODIS-EVI[J].生态学报,2003,23(5):979-987.WANG Zhengxing,LIU Chuang,HUETE A.From AVHRR-NDVI to MODIS-EVI:advances in vegetation index research[J].Acta Ecologica Sinica,2003,23(5):979-987.(in Chinese)
[17]王正兴,刘闯,陈文波,等.MODIS增强型植被指数EVI与NDVI初步比较[J].武汉大学学报(信息科学版),2006,31(5):407-410.WANG Zhengxing,LIU Chuang,CHEN Wenbo,et al.Preliminary comparison of MODIS NDVI and MODIS EVI in Eastern Asia[J].Geomatics and Information Science of Wuhan University,2006,31(5):407-410.(in Chinese)
[18]李红军,郑力,雷玉萍,等.基于EOS/MODIS数据的NDVI与EVI比较研究[J].地理科学进展,2007,26(1):26-32.LI Hongjun,ZHENG Li,LEI Yuping,et al.Comparison of NDVI and EVI based on EOS/MODIS data[J].Progress in Geography,2007,26(1):26-32.(in Chinese)
[19]李文梅,谭志豪,李文娟,等.MODIS NDVI与MODIS EVI的比较分析[J].遥感信息,2010(6):73-78.LI Wenmei,TAN Zhihao,LI Wenjuan,et al.Comparison and analysis of MODIS NDVI and MODIS EVI[J].Remote Sensing Information,2010(6):73-78.(in Chinese)
[20]左丽君,张增祥,董婷婷,等.MODIS/NDVI和MODIS/EVI在耕地信息提取中的应用及对比分析[J].农业工程学报,2008,24(3):167-172.ZUO Lijun,ZHANG Zengxiang,DONG Tingting,et al.Application of MODIS/NDVI and MODIS/EVI to extracting the information of cultivated land and comparison analysis[J].Transactions of the CSAE,2008,24(3):167-172.(in Chinese)
[21]朱林富,谢世友,杨华,等.基于MODIS-EVI的重庆植被覆盖时空分异特征研究[J].生态学报,2018,38(19):6992-7002.ZHU Linfu,XIE Shiyou,YANG Hua,et al.Study on the spatial-temporal variability of vegetation coverage based on MODIS-EVIin Chongqing[J].Acta Ecologica Sinica,2018,38(19):6992-7002.(in Chinese)
[22]米兆荣,张耀生,赵新全,等.NDVI和EVI在高寒草地牧草鲜质量估算和植被动态监测中的比较[J].草业科学,2010,27(6):13-19.(in Chinese)MI Zhaorong,ZHANG Yaosheng,ZHAO Xinquan,et al.Comparison NDVI with EVI in the herbage fresh weight estimation and vegetation dynamics for alpine grassland[J].Pratacultural Science,2010,27(6):13-19.(in Chinese)
[23]廖靖,覃先林,周汝良.利用2种植被指数监测中国6种典型森林生长期的比较研究[J].西南林业大学学报,2014,33(3):57-61.LIAO Jing,QIN Xianlin,ZHOU Ruliang.Comparative analysis of the growing season of typical forest using two vegetation indices[J].Journal of Southwest Forestry,2014,33(3):57-61.(in Chinese)
[24]LIU H Q,HUETE A R.A feedback based modification of the NDVI to minimize canopy background and atmospheric noise[J].IEEE Tansactions on Geoscience&Remote Sensing,1995,33(2):457-465.
[25]赵英时.遥感应用分析原理与方法[M].北京:科学出版社,2009.
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