[1] Quarmby N A, Milnes M, Hindle T L, et al. The use of multitemporal NDV1 measurements from AVHRR data for crop yield estimation and prediction [J].lnternational ,Journal of Remote Sensing,1993,14(2):199-210. [2] 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 [3] Vintrou E, Desbrosse A, Begue A, et al. Crop area mapping in West Africa using landscape stratification of MODIS time series and comparison with existing global land products[J].International Journal of Applied Earth Observation Geoinformation,2012,14(1):83–93 [4] Casa C D L, Ovando G G. Estimation of wheat area in Córdoba, Argentina, with multitemporal NDVI data of SPOT-Vegetation [J]. International Journal of Geosciences,2013,04(10):1355-1364 [5] Wardlow B D, Egbert S L. Large-area crop mapping using time-series MODIS 250m NDVI data: an assessment for the U.S. central great plains [J]. Remote Sensing of Environment,2008,112(3):1096-1116 [6] 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(06):17-22 [7] Jakubauskas M E, Legates D R, Kastens J H. Crop identification using harmonic analysis of time-series AVHRR NDVI data [J].Computers Electronics in Agriculture, 2002, 37(s1Sensing,1993, [8] Shakir M,牛铮,王力,等.基于多时相MODIS EVI和临近三年地面数据的新疆作物分类[J].光谱学与光谱分析, 2015, 35(05):1345-1350. [9] 吴炳方,蒙继华,李强子.国外农情遥感监测系统现状与启示[J].地球科学进展,2010,25(10):1003-1012. [10] 刘国栋,邬明权,牛铮,等.基于GF-1卫星数据的农作物种植面积遥感抽样调查方法[J].农业工程学报, 2015(5):160-166. [11] Chellasamy M, Ferre P A T, Humlekrog G M. Automatic training sample selection for a multi-evidence based crop classification approach [J]. International Archives of the Photogrammetry Remote Sensing S, 2014, XL-7:63-69. [12] Pradhan S. Crop area estimation using GIS, remote sensing and area frame sampling [J]. International Journal of Applied Earth Observation Geoinformation, 2001,3(1):86-92. [13] 王迪,周清波,刘佳.作物面积空间抽样研究进展[J].中国农业资源与区划, 2012(2):9-14. [14] 申克建,何浩,蒙红卫,等.农作物面积空间抽样调查研究进展[J].中国农业资源与区划, 2012,33(4):11-16. [15] 焦险峰,杨邦杰,裴志远.基于分层抽样的中国水稻种植面积遥感调查方法研究[J].农业工程学报, 2006, 22(5):105-110. [16] Zheng B, Myint S W, Thenkabail P S, et al. A support vector machine to identify irrigated crop types using time-series Landsat NDVI data [J]. International Journal of Applied Earth Observation Geoinformation,2015,34(1):103-112. [17] Carl A S, Kraft R. Land use classification of ERS-1 images with an artificial neural network [C]// Satellite Remote Sensing. International Society for Optics and Photonics,1994:452-459. [18] 马丽,徐新刚,贾建华,等.利用多时相 TM 影像进行作物分类方法[J].农业工程学报,2008,24(Supp.2):191-195. [19] Lewinski S A. Object-oriented classification of Landsat ETM+ satellite image [J]. Journal of Water Land Development, 2007, 10:91-106. [20] 刘佳,王利民,杨福刚,等.基于HJ时间序列数据的农作物种植面积估算[J].农业工程学报, 2015(03):199-206. [21] 刘海启,裴志远,张松岭,等.资源一号卫星CCD图像在作物面积监测中的应用[J].农业工程学报, 2001,17(4):140-143. [22] Nagy G, Tolaba J. Nonsupervised crop classification through airborne multispectral observations [J]. Ibm Journal of Research Development, 1972, 16(2):138-153. [23] 王利民,刘佳,杨福刚,等.基于GF-1 卫星遥感的冬小麦面积早期识别[J].农业工程学报2015,31(11):194-201 [24] 王利民,刘佳,杨玲波,等.基于NDVI加权指数的冬小麦种植面积遥感监测[J].农业工程学报,2016,32(17):127-135. [25] 王利民,刘佳,高建孟,等.冬小麦面积遥感识别精度与空间分辨率的关系[J].农业工程学报,2016,32(23):152-160 [26] Shi J J, Huang J F, Zhang F. Multi-year monitoring of paddy rice planting area in Northeast China using MODIS time series data [J]. Journal of Zhengjiang University-SCIENCE B(Biomedicine Biotechnology), 2013,14(10): 934-946 [27] Kontgis C, Schneider A, Ozdogan M. Mapping rice paddy extent and intensification in the Vietnamese Mekong River Delta with dense time stacks of Landsat data[J]. Remote Sensing of Environment,2015,169:255-269 [28] Huang J F, Wang X Z, Li X X, et al. Remotely sensed rice yield prediction using multi-temporal NDVI data derived from NOAA''s-AVHRR [J]. Plos One, 2013,8(8):e70816. [29] Sun H S, Xu A G, Lin H, et al. Winter wheat mapping using temporal signatures of MODIS vegetation index data [J]. International Journal of Remote Sensing, 2012,33(16): 5026-5042. [30] Domiri D D. The method for detecting biological parameter of rice growth and early planting of paddy crop by using multi temporal remote sensing data [C]// IOP Conference Series: Earth and Environmental Science. IOP Conference Series: Earth and Environmental Science, 2017:012002 [31] 刘佳,王利民,杨福刚,等.基于HJ时间序列数据的农作物种植面积估算[J].农业工程学报, 2015(03):199-206 [32] Lu L L, Wang C Z, Guo H D, et al. Detecting winter wheat phenology with SPOT-VEGETATION data in the North China Plain[J].Geocarto International,2014,29(3):244-255.
|