中国高光谱成像遥感应用研究进展

doi:10.6046/gtzyyg.2004.02.01

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摘要

根据20世纪90年代以来国内主要学术刊物上发表的有关论文,综述了高光谱成像遥感在地质、海洋、农业、大气和环境等领域的应用和研究进展。为了能够较好地反映高光谱成像遥感应用研究的最新进展,对国际上同一时期的发展状况也作了简要介绍。

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Abstract：

Based on related papers carried in various academic journals of China since 1990s, the authors have summarized in this paper the advances in the application and researches of hyperspectral imaging remote sensing in such fields as geology, oceanography, agriculture, atmosphere and environment. For the purpose of reflecting the most recent advances in the application and researches of hyperspectral imaging remote sensing, this paper also gives a brief account of the development of this technology abroad.

收稿日期: 2003-06-30 出版日期: 2011-08-02

基金资助:

河南省高等学校创新人才培养对象基金;河南省杰出青年科学基金(9920、0003);河南省自然科学基金(004070700)资助。

作者简介: 钱乐祥(1964-),男,博士、教授,主要从事资源、环境遥感与GIS应用方面的教学、研究工作.

引用本文:

钱乐祥, 泮学芹, 赵芊. 中国高光谱成像遥感应用研究进展[J]. 国土资源遥感, 2004, 16(2): 1-6.
QIAN Le-xiang, PAN Xue-qin, ZHAO Qian . ADVANCES IN THE APPLICATION AND RESEARCHES OF HYPERSPECTRAL IMAGING REMOTE SENSING IN CHINA. REMOTE SENSING FOR LAND & RESOURCES, 2004, 16(2): 1-6.

链接本文:

https://www.gtzyyg.com/CN/10.6046/gtzyyg.2004.02.01 或 https://www.gtzyyg.com/CN/Y2004/V16/I2/1

[1] 浦瑞良,宫鹏.高光谱遥感及其应用［M］.北京:高等教育出版社,2000.

[2] 田庆久,张良培,郑兰芬,等.成像光谱遥感定标模型的分析与评价［J］.遥感技术与应用,1996,11(3):16-21.

[3] 谢红接,李剑锋,刘德长,等.高光谱数据处理及其在广西苗儿山地区的地质应用研究［J］.铀矿地质,1999,15(1):47-54.

[4] Geotz A, Herring M.The high resolution imaging spectrometer (HIRIS) for EOS［J］.IEEE Transaction on geoscience and remote sensing,1989.27(2).

[5] Mazer A S, et al..Image processing software for imaging spectrometry data analysis［J］.Remote sensing of environment,1988.24(1):201-210.

[6] 万余庆,闫永忠. 高光谱技术在汝萁沟煤田烧变岩和Fe3+丰度信息提取中的方法研究［J］. 国土资源遥感,2003,(2):50-54.

[7] 张宗贵,王润生,郭小方,等. 基于地物光谱特征的成像光谱遥感矿物识别方法［J］. 地学前缘,2003, 10(2): 437-443.

[8] 甘甫平,王润生,郭小方,等. 利用成像光谱遥感技术识别和提取矿化蚀变信息——以河北赤城-崇礼地区为例［J］. 现代地质,2000, 14(4): 465-469.

[9] 王青华,王润生,郭小方.高光谱遥感技术在岩石识别中的应用［J］.国土资源遥感,2000,(4):39-43.

[10] 王晋年,郑兰芬,童庆禧. 成象光谱图象光谱吸收鉴别模型与矿物填图研究［J］. 环境遥感,1996,11(1): 20-31.

[11] Kruse F A, Lefkoff A B. Knowledge-based geologic mapping with imaging spectrometers［J］. Remote sensing reviews, 1993, 8: 3-28.

[12] Huguenin R L, Jones J L.Intelligent information extraction from reflectance spectra: absorption band positions［J］.J of Geophysical Research, 1986, 91: 9585-9598.

[13] Meer F van der, Bakker W.Cross correlogram spectral matching: application to surface mineralogical mapping by using AVIRIS data from Cuprite, Nevada［J］.Remote Sens. Environ., 1997,6:371-382.

[14] Crosta A P, Sabine C, Tamnik J V. Hydrothermal alteration mapping at Bodie, California, using AVIRIS Hyperspectral data［J］. Remote Sens. Environ., 1998, 65(3):309-319.

[15] Kruse F A.Use of airborne imaging apectrometer data to map minerals associated with bydrothermally altered rocks in the Northern Grapevine Mountains, Nevnda and California［J］.Remote Sens. Environ.,1988,24:31-51.

[16] Chabrillat S, Pinet P C, Ceuleneer G, et al..Ronda peridotite massif: methodology for its Geological mapping and lithological discrimination from airborne hyperspectral data［J］.INT J Remote Sensing,2000,21(12):2363-2388.

[17] Stan S S, Pendock N.Bayesian feature fitting for interpreting mineral reflectance spectra
[A].Proceedings of the Twelfth International Conference and Workshops on Applied Geolohic Remote Sensing
[C]. Denver, Colorado, 1997.

[18] Benediktsson J A, Swain P H, Ersoy O K.Conjugate-gradient neural networks in classification of multisource and very-high-dimension remote sensing data［J］.Int J. Remote Sensing, 1993,14(15):2883-2903.

[19] Benediktsson J A, Sveinsson J R.Arnason Kclassification and feature extraction of AVIRIS data［J］.IEEE Transactions on Geoscience and Remote Sensing, 1995,33(5):194-1205.

[20] 甘甫平,王润生,郭小方,等.高光谱遥感信息提取与地质应用前景——以青藏高原为试验区［J］.国土资源遥感,2000,(3):38-44.

[21] Pieters C M, Mustard J F.Exploration of Crustal/Mantle material for the Earth and Moon using reflectance spectroscopy［J］.Remote sensing of Environment. 1988,24: 151-178.

[22] Tompkins S, Mustard J F, etc..Optimization of end members for spectral mixture analysis［J］.Remote sensing of Environment. 1997,59: 472-489.

[23] 潘德炉,李淑菁.卫星海洋水色遥感信息特征量的研究［J］.遥感学报,1998,2(1):26-31.

[24] 唐军武,田国良,陈清莲.离水辐射非朗伯特性的Monte Carlo模拟及分析［J］.海洋学报,2000,22(2):48-51.

[25] 傅克忖,曾宪模,任敬萍,等.由现场离水辐射亮度估算黄海透明度几种方法的比较［J］.黄渤海海洋,1999,17(2):19-23.

[26] 李红波,舒嵘,薛永祺.PHI超光谱成像系统及其海洋遥感应用前景分析［J］. 红外与毫米波学报,2002,21(6):429-433.

[27] 潘德炉,林寿仁,李淑菁,等.海洋水色遥感在海岸带综合管理中的应用［J］.航天返回与遥感,2001,22(2):34-39.

[28] 范学炜,张汉德,孙幸文.成像高光谱数据在赤潮检测和识别中的应用研究［J］.国土资源遥感,2003,(1):8-12.

[29] 黄韦艮,沈毅楚.我国海洋遥感的现状与需求［J］.遥感技术与应用,1994,9(2):50-53.

[30] 冯兰娣,孙效功,胥可辉.利用海岸带遥感图像提取岸线的小波变换方法［J］.青岛海洋大学学报,2002,32(5):777-781.

[31] Behrenfeld M J, Falkowski P G.A consumer's guide tophytoplankton primary productivity models［J］.LimnologyOceanography, 1997,42(7):1479-1491.

[32] Fiedler P C.Satellite observations of the 1982-1983 EINino along the US Pacific coast［J］.Science, 1984, 224: 1251-1254.

[33] Hofmann E E, Lascara C M.Overview of interdisciplinary modeling for marine ecosystems
[A].In: Brink K H, Robinson A R, eds. The Sea
[C].New York: John Wiley ＆ Sons Inc, 1998,10: 507-540.

[34] Lewis M R, Carr M E, Feldman C C,et al..Influence of penetrating solar radiation on the heat budget of the equatorial Pacific ocean［J］.Nature 1990, 347:543-545.

[35] Sathyendranath S,Gouveia A D,Shetye S R,et al..Biological control of surface temperature in the A rabian Sea［J］. Nature, 1991,349:54-56.

[36] Feldman G C, Clark D, Halpern D.Satellite color observations of the phytoplankton distribution in the eastern equatorial Pacific during the 1982-83EINino［J］.Science, 1984, 226:1069-1071.

[37] Fiedler P C.Satellite observations of the 1982-1983 EINino along the US Pacific coast［J］.Science, 1984, 224: 1251-1254.

[38] International Ocean Color Coordinating Group. IOCCG Report No l: Minmum Requirements for an Operational Ocean-Color Sensor for the Open Ocean［J］.IOCCG ProjectOffice,Dartmouth,Canada,1998,46.

[39] Sugmioto T, Tameishi H.Warm-core rings, streamers andtheir role on the fishing ground formation around Japan［J］.Deep-sea Res,1992,39(2):183-201.

[40] Pauly D, Christensen V.Primary production required to sustain global fisheries［J］.Nature,l995, 374: 255-257.

[41] Pauly D, Christensen V, Dalsgaard J, et al.Fishing down marine food-webs［J］.Science,1998,279:860-863.

[42] 张良培,郑兰芬,童庆禧.利用高光谱对生物变量进行估计［J］.遥感学报,1997,1(2):111-114.

[43] 童庆禧,郑兰芬,王晋年,等.湿地植被成像光谱遥感研究［J］.遥感学报,1997,1(1):50-57.

[44] Gallo K P, Daughtry C S T, Bauer M E.Spectral Estimation of Absorbed Photosynthesis Active Radiation in Corn Canopies［J］.Remote Sens. Environ., 1985,17: 221-232.

[45] Choudhury B J.Relationships between Vegetation Indices, Radiation Absorption and Net Photosynthesis Evaluated by a Sensitivity Analysis［J］.Remote Sens. Environ., l989, 22:209-233.

[46] Weiser R L, Asrar G, Miller G P, et al..Assessing Grassland Characteristics from Spectral Measurements［J］.Remote Sens. Environ., 1986,20:141-152.

[47] 浦瑞良,宫鹏.森林生物化学与CASI高光谱分辨率遥感数据的相关分析［J］.遥感学报,1997,1(2):5-23.

[48] http://www.digital-agri.org.cn/news/31.htm.

[49] http://www.nercita.org.cn/news/xiaomai.htm.

[50] Nolin A W, Dozier J. A Hyperspectral Method for Remotely Sensing the Grain Size of Snow［J］. Remote Sens. Environ., 2000, 74(2):207-216.

[51] Caetano M, Pereira J M C. Analysis of the integrated hyperspectral response of pine stands ［J］. SPIE, 1997, 3(222): 26-37.

[52] Pablo J, John R. Chlorophyll Fluorescence Effects on Vegetation Apparent Reflectance: Laboratory and Airborne Canopy-level Measurement with Hyperspectral Data ［J］. Remote Sensing of Environment, 2000, 74:596-608.

[53] Horler D H N, Dockray M, Barber J.The Red Edge of Plant Leaf Reflectance［J］.Int J Remote Sensing, 1983, 4:273-288.

[54] Gao B C, Goetz A F H.Retrieval of equivalent water thickness and information related to biochemical components of vegetation canopies from AVIRIS data［J］.Remmote Sens. Environ., 1995, 52:155-162.

[55] Frouin R, Deschamps P Y, Lecomte P.Determination from space of atmospheric total water vapor amounts by differential absorption near 940nm: theory and airborne verification［J］.Journal of Applied Meteorology, 1990,29, 448-460.

[56] Gao B C, Goetz A F H.Separation of cirrus clouds from clear surface from AVIRIS data using the 1.38μm water vapor band
[A]. In: Summaries of the Third Annual JPL Airborne Geoscience Workshop
[C].CA: Jet Propulsion Laboratory, 1992,98-100.

[57] Nolin A W, Dozier J.Estimating snow grain size using AVIRIS data［J］.Remote Sens. Environ.,1993,44: 231-238.

[58] Nolin A W, Dozier J.A hyperspectral method for remotely sensing the grain size of snow［J］.Remote Sens. Environ., 2000, 74: 207-216.