[1] Chen J M, Pavlic G, Brown L, Cihlara J, Leblanca S G, Whitea H P, Hallb R J, Peddlec D R, Kingd D J, Trofymowe J A, Swiftf E, Van der Sandeng J, Pellikkah P K E. Derivation and validation of Canada-wide coarse-resolution leaf area index maps using high-resolution satellite imagery and ground measurements. Remote Sensing of Environment, 2002, 80: 165-184.
[2] 曹卫彬, 杨邦杰, 宋金鹏. TM影像中基于光谱特征的棉花识别模型. 农业工程学报, 2004, 20(4): 112-116.
Cao W B, Yang B J, Song J P. The recognition model of cotton based on spectral signature in TM images. Transactions of the Chinese Society of Agricultural Engineering, 2004, 20(4): 112-116. (in Chinese)
[3] Wiegand C L, Richardson A J, Escobar D E, Gerbermann A H. Vegetation indices in crop assessments. Remote Sensing of Environment, 1991, 35: 105-119.
[4] 钟仕全, 莫建飞, 陈燕丽, 李莉. 基于HJ-1B卫星遥感数据的水稻识别技术研究. 遥感技术与应用, 2010, 25(4): 464-468.
Zhong S Q, Mo J F, Chen Y L, Li L. Research on the rice recognition technology based on HJ-1B satellite remote sensing data. Remote Sensing Technology and Application, 2010, 25(4): 464-468. (in Chinese)
[5] 陈燕丽, 钟仕全, 莫建飞, 王君华, 莫伟华, 王莹. HJ-1星水稻生育期长势动态监测研究. 江苏农业科学, 2013, 41(7): 339-342.
Chen Y L, Zhong S Q, Mo J F, Wang J H, Mo W H, Wang Y. Research on dynamic monitoring the growth of rice during its growth period by HJ-1 satellite . Jiangsu Agricultural Science, 2013, 41(7): 339-342. (in Chinese)
[6] 赵丽花, 李卫国, 杜培军. 基于多时相HJ卫星的冬小麦面积提取. 遥感信息, 2011, 2: 41-50.
Zhao L H, Li W G, Du P J. The area extraction of winter wheat based on multi-temporal HJ remote sensing satellite images. Remote Sensing Application, 2011, 2: 41-50. (in Chinese)
[7] Hlavka C A, Haralick R M, Carlyle S M, Yokoma R. The discrimination of winter wheat using a growth state signature. Remote Sensing of Environment, 1980, 9: 277-294.
[8] 谭昌伟, 王纪华, 赵春江, 王妍, 王君婵, 童璐, 朱新开, 郭文善. 利用Landsat TM遥感数据监测冬小麦开花期主要长势参数. 农业工程学报, 2011, 27(5): 224-230.
Tan C W, Wang J H, Zhao C J, Wang Y, Wang J C, Tong L, Zhu X K, Guo W S. Monitoring wheat main growth parameters at anthesis stage by Landsat TM . Transactions of the Chinese Society of Agricultural Engineering, 2011, 27(5): 224-230. (in Chinese)
[9] 谭昌伟, 王纪华, 朱新开, 王妍, 王君婵, 童璐, 郭文善. 基于Landsat TM影像的冬小麦拔节期主要长势参数遥感监测. 中国农业科学, 2011, 44(7): 1358-1366.
Tan C W, Wang J H, Zhu X K, Wang Y, Wang J C, Tong L, Guo W S. Monitoring main growth status parameters at jointing stage in winter wheat based on Landsat TM images. Scientia Agricultura Sinica, 2011, 44(7): 1358-1366. (in Chinese)
[10] 吕建海, 陈曦, 王小平, 包安明. 大面积棉花长势的MODIS监测分析方法与实践. 干旱区地理, 2004, 27(1): 118-123.
Lü J H, Chen X, Wang X P, Bao A M. Method and practice of monitoring and analyzing the growth of big area cotton by MODIS. Arid Land Geography, 2004, 27(1): 118-123. (in Chinese)
[11] 裴志远, 杨邦杰. 多时相归一化植被指数NDVI的时空特征提取与作物长势模型设计. 农业工程学报, 2000, 16(5): 20-22.
Pei Z Y, Yang B J. Extracting temporal and spatial characteristics of multi-temporal NDVI and designing crop growth model. Transactions of the Chinese Society of Agricultural Engineering, 2000, 16(5): 20-22. (in Chinese)
[12] Everitt J H, Yang C, Sriharan S, Judd F W. Using high resolution satellite imagery to map black mangrove on the Texas Gulf Coast. Journal of Coastal Research, 2008, 24(6): 1582-1586.
[13] Giri C, Pengra B, Zhu Z, Singh A, Tieszen L L. Monitoring Mangrove forest dynamics of the Sundarbans in Bangladesh and India using multi-temporal satellite data from 1973 to 2000. Estuarine Coastal and Shelf Science, 2007, 73: 91-100.
[14] 吴炳方, 张峰, 刘成林, 张磊, 罗治敏. 农作物长势综合遥感监测方法. 遥感学报, 2004, 8(6): 498-514.
Wu B F, Zhang F, Liu C L, Zhang L, Luo Z M. An integrated method for crop condition monitoring. Journal of Remote Sensing, 2004, 8(6): 498-514. (in Chinese)
[15] Vaiphasa C, Skidmore A K, Boer W F. A post-classifier for mangrove mapping using ecological data. ISPRS Journal of Photogrammetry and Remote Sensing, 2006, 61: 1-10.
[16] Benedetti R, Rossini P. On the use of NDVI profiles as a tool for agricultural statistics: The case study of wheat yield estimate and forecast in Emilia Romagna. Remote Sensing of Environment, 1993, 45: 311-326.
[17] 徐新刚, 王纪华, 黄文江, 李存军, 杨小冬, 顾晓鹤. 基于权重最优组合和多时相遥感的作物估产. 农业工程学报, 2009, 25(9): 137-142.
Xu X G, Wang J H, Huang W J, Li C J, Yang X D, Gu X H. Estimation of crop yield based on weight optimization combination and multi-temporal remote sensing data. Transactions of the Chinese Society of Agricultural Engineering, 2009, 25(9): 137-142. (in Chinese)
[18] 谭昌伟, 周清波, 齐腊, 庄恒扬. 水稻氮素营养高光谱遥感诊断模型. 应用生态学报, 2008, 19(6): 1261-1268.
Tan C W, Zhou Q B, Qi L, Zhuang H Y. Hyperspectral remote sensing diagnosis models of rice plant nitrogen nutritional status. Chinese Journal of Application Ecology, 2008, 19(6): 1261-1268. (in Chinese)
[19] 杨邦杰, 裴志远, 周清波, 刘海启. 我国农情遥感监测关键技术研究进展. 农业工程学报, 2002(3): 191 -195.
Yang B J, Pei Z Y, Zhou Q B, Liu H Q. Key technology of crop monitoring using remote sensing at a national scale: Progress and problems. Transaction of the Chinese Society of Agricultural Engineering, 2003(3): 191-195. (in Chinese)
[20] Myneni R B, Nemani R R, Running S W. Estimation of global leaf area index and absorbed PAR using radiative transfer models. IEEE Transactions on Geoscience and Remote Sensing, 1997, 35: 1380-1393.
[21] White J D, Trotter C M, Brown L J. Nitrogen concentration in New Zealand vegetation foliage derived from laboratory and field spectrometry. International Journal of Remote Sensing, 2000, 21: 2525-2531.
[22] Yoder B J, Pettigrew-Crosby R E. Predicting nitrogen and chlorophyll content and concentrations from reflectance spectra (400-2500 nm) at leaf and canopy scales. Remote Sensing of Environment, 1995, 53: 199-211.
[23] Lydia S, Iolanda F, Josep P. Remote sensing of biomass and yield of winter wheat under different nitrogen supplies. Crop Science, 2000, 40: 723-731. |