Please wait a minute...
img

官方微信

遥感技术与应用  2010, Vol. 25 Issue (4): 451-457    DOI: 10.11873/j.issn.1004-0323.2010.4.451
综述     
干涉成像光谱遥感技术发展与应用
李传荣,贾媛媛,马灵玲
中国科学院光电研究院,北京 100190
Review on Development and Application of Interference Imaging Spectrometry
LI Chuan-rong,JIA Yuan-yuan,MA Ling-ling
Academy of Opto-Electronics,Chinese Academy of Sciences,Beijing 100190,China
 全文: PDF(768 KB)  
摘要:

干涉成像光谱技术是遥感技术与应用的前沿与热点,因其高通量、高光谱分辨率和高成像稳定性等特点带来的巨大应用潜力而受到各国的普遍重视。从干涉成像光谱技术基本原理出发,系统回顾并评述干涉成像光谱数据在光谱复原、定标、大气校正三方面的主要进展,同时对国内外干涉型成像光谱仪的发展与应用加以介绍,指出基于HJ\|1A超光谱成像仪开展相关工作是加快我国干涉成像光谱技术发展的有效途径。

关键词: 成像光谱技术 干涉成像光谱仪 光谱复原 定标 大气校正    
Abstract:

Interference imaging spectrometry is in the frontier and hotspot of remote sensing technology and application.It has enormous application potential for its characteristics such as high luminous flux,high spectral resolution,and high-stability of imaging.We introduce the basic principles of interference imaging spectrometer.We will also give an overview of data processing technologies including spectrum reconstruction,calibration and atmospheric correction.Some representative spectrometers and their applications are reviewed in brief.Finally,it is pointed out that the effective approach to promote the development of interference imaging spectrometry shall be carrying out some research and applications based on HSI instrument loaded on HJ-1A satellite in our country.

Key words: Imaging spectrometer technique    Interference imaging spectrometer    Spectrum reconstruction    Calibration    Atmospheric correction
出版日期: 2010-10-21
服务  
把本文推荐给朋友
加入引用管理器
E-mail Alert
RSS
作者相关文章  
李传荣
贾媛媛
马灵玲

引用本文:

李传荣, 贾媛媛, 马灵玲. 干涉成像光谱遥感技术发展与应用[J]. 遥感技术与应用, 2010, 25(4): 451-457.

LI Chuan-rong, JIA Yuan-yuan, MA Ling-ling. Review on Development and Application of Interference Imaging Spectrometry. Remote Sensing Technology and Application, 2010, 25(4): 451-457.

链接本文:

http://www.rsta.ac.cn/CN/10.11873/j.issn.1004-0323.2010.4.451        http://www.rsta.ac.cn/CN/Y2010/V25/I4/451

[1]Kawata S,Minami K,Minami S.Superresolution of Fourier Transform Spectroscopy Data by the Maximum Entropy Method[J].Applied Optics,1983,22(22):3593-3598.
[2]Minami K,Kawata S,Minami S.Superresolution of Fourier Transform Spectral by Autoregressive Model Fitting with Singular Value Decomposition[J].Applied Optics,1985,24(2):162-167.
[3]Kauppinen J K,Moffatt D J,Hollberg M R,et al.A New Line-narrowing Procedure Based on Fourier Self-deconvolution,Maximum Entropy[J].Applied Spectroscopy,1991,45(3):411-416.
[4]Kauppinen J K,Saarinen P E.True Linear Prediction by Use of a Theoretical Impulse Response[J].Journal of the Optical Society of America B,1994,11(9):1631-1638.
[5]Saarinen P E.The Spectral Line Narrowing Problem and a Computer Program Based on the Gulf Tuning Method[J].Applied Spectroscopy,1998,52(12):1569-1582.
[6]Xiang Libin,Zhao Baochang,Xue Mingqiu.A New Method for Superresolution of Fourier Transform Spectral[J].Acta Optica Sinica,1995,15(11):1529-1533.[相里斌,赵葆常,薛鸣球.研究傅里叶变换光谱超分辨率的一种新方法[J].光学学报,1995,15(11):1529-1533.]
[7]Xiang Libin,Zhao Baochang,Xue Mingqiu.Intensity Correction and Quality Factor of FAT[J].Acta Optica Sinica,1996,16(4):430-434.[相里斌,赵葆常,薛鸣球.光谱估计方法FAT的强度修正及品质因子[J].光学学报,1996,16(4):430-434.]
[8]Dong Ying,Xiang Libin,Zhao Baochang.New Approach to Resolution Enhancement of Fourier Transform Spectrum[J].Spectroscopy and Spectral Analysis,2003,23(3):441-445.[董瑛,相里斌,赵葆常.Fourier变换光谱学的一种光谱分辨率增强方法[J].光谱学与光谱分析,2003,23(3):441-445.]
[9]Jian Xiaohua,Zhang Chunmin,Zhao Baochang.A New Method for Spectrum Reproduction and Interferogram Processing[J].Acta Physica Sinica,2007,56(2):824-829.[简小华,张淳民,赵葆常.研究干涉图处理与光谱复原的一种新方法[J].物理学报,2007,56(2):824-829.]
[10]Best F A,Revercomb H E,Bingham G E,et al.Calibration of the Geostationary Imaging Fourier Transform Spectrometer (GIFTS)[J].Proceedings of SPIE,2001,4151:21-31.
[11]Huang Min,Xiang Libin,Yuan Yan,et al.   Research of the On-board Calibration of Fourier Transform Imaging Spectrometer[J].Remote Sensing Technology and Application,2004,19(3):214-216.[黄旻,相里斌,袁艳,等.干涉型超光谱成像仪星上定标方法研究[J].遥感技术与应用,2004,19(3):214-216.]
[12]Xiang Libin,Ji Zhongying,Huang Min,et al.On the Calibration of the Spatially Modulated Imaging Fourier Transform Spectrometer[J].Acta Photonica Sinica,2004,33(7):850-853.[相里斌,计忠瑛,黄旻,等.空间调制干涉光谱成像仪定标技术研究[J].光子学报,2004,33(7):850-853.]
[13]Ji Zhongying,Xiang Libin,Wang Zhonghou,et al.Research of Calibration Technology of Interference Hyperspectral Imager on Secondary Planet[J].Remote Sensing Technology and Application,2004,19(4):280-283.[计忠瑛,相里斌,王忠厚,等.干涉型超光谱成像仪的星上定标技术研究[J].遥感技术与应用,2004,19(4):280-283.]
[14]Cui Yan,Ji Zhongying,Gao Jing,et al.Study on the Spectral Radiometric Calibration Method of the Spatially Modulated Imaging Fourier Transform Spectrometer[J].Acta Optica Sinica,2005,25(12):1719-1721.[崔燕,计忠瑛,高静,等.空间调制干涉光谱成像仪光谱辐射度定标方法研究[J].光学学报,2005,25(12):1719-1721.]
[15]Gao B C,Heidebrecht K B,Goetz A F H.Derivation of Scaled Surface Reflectances from AVIRIS Data[J].Remote Sensing of Environment,1993,44(2-3):165-178.
[16]Analytical Imaging and Geophysics LLC (AIG).ACORN User's Guide,Stand Alone Version[S].2001.

[17]ITT Visual Information Solutions.FLAASH Module User's Guide[S].2008.
[18]Richter R.Atmospheric/Topographic Correction for Satellite Imagery (ATCOR-2/3 User Guide,Version 7.0)[S].Wessling,Germany:DLR,2009.
[19]Richter R.Atmospheric/Topographic Correction for Airborne Imagery (ATCOR-4 User Guide,Version 5.0)[S].Wessling,Germany:DLR,2009.
[20]Boucher Y,Poutier L,Achard V,et al.Validation and Robustness of an Atmospheric Correction Algorithm for Hyperspectral Images[J].Proceedings of SPIE,2002,4725:459-470.
[21]Qu Z,Kindel B C,Goetz A F H.The High Accuracy Atmospheric Correction for Hyperspectral Data (HATCH) Model[J].IEEE Transactions on Geoscience and Remote Sensing,2003,41(6):1223-1231.
[22]Vaughan A H.Imaging Michelson Spectrometer for Hubble Space Telescope[J].Proceedings of SPIE,1988,1036:2-14.
[23]Hammer P D,Valero F P J,Peterson D L,et al.An Imaging Interferometer for Terrestrial Remote Sensing[J].Proceedings of SPIE,1993,1937:244-255.
[24]Hammer P D,Peterson D L,Smith W H,et al.Remote Sensing with Hyperspectral Imagery Using DASI - an Imaging Interferometer[J].IGARSS'96,1996,4:2276-2278.
[25]Lucey P G,Horton K A,Williams T J,et al.SMIFTS:A Cryogenically Cooled,Spatially Modulated Imaging Infrared Interferometer Spectrometer[J].Proceedings of SPIE,1993,1937:130-141.
[26]Meigs A D,Butler E W,Jones B A,et al.Kestrel's New FTVHSI Instrument for Hyperspectral Remote Sensing from Light Aircraft[J].Proceedings of SPIE,1996,2960:174-183.
[27]Yarbrough S,Caudill T,Kouba M E,et al.MightySat II.1 Hyperspectral Imager:Summary of On-Orbit Performance[J].Proceedings of SPIE,2002,4480:186-197.
[28]Smith W L,Revercomb H E,Zhou D K,et al.Geostationary Imaging Fourier Transform Spectrometer (GIFTS):Science Applications[J].Proceedings of SPIE,2006,6405:64050E-1-64050E-13.
[29]Glumb R J,Jordan D C,Mantica P.Development of the Crosstrack Infrared Sounder (CrIS) Sensor Design[J].Proceedings of SPIE,2002,4486:411-424.
[30]Phulpin T,Blumstein D,Prel F,et al.Applications of IASI on MetOp-A :First Results and Illustration of Potential Use for Meteorology,Climate Monitoring and Atmospheric Chemistry [J].Proceedings of SPIE,2007,6684:66840F-1-66840F-12.
[31]Xiang Libin,Zhao Baochang,Xue Mingqiu.Spatially Modulated Imaging Interferometry[J].Acta Optica Sinica,1998,18(1):18-22.[相里斌,赵葆常,薛鸣球.空间调制干涉成像光谱技术[J].光学学报,1998,18(1):18-22.]
[32]Dong Ying,Xiang Libin,Zhao Baochang.Analysis of Interferometer Systerm in a Large Aperture Static Imaging Spectrometer[J].Acta Optica Sinica,2001,21(3):330-334.[董瑛,相里斌,赵葆常.大孔径静态干涉成像光谱仪的干涉系统分析[J].光学学报,2001,21(3):330-334.]
[33]Jin Xizhe,Xiang Yang,Yu Bingxi.Development and Spectral Imaging Experiment of Sagnac Type Imaging Fourier Transform Spectrometer(IFTS)[J].Journal of Remote Sensing,2002,6(3):193-197.[金锡哲,向阳,禹秉熙.Sagnac型干涉成像光谱仪研制及干涉成像光谱实验[J].遥感学报,2002,6(3):193-197.]
[34]Zhao Baochang,Yang Jianfeng,Chang Lingying, et al.Optical Design and On-orbit Performance Evaluation of the Imaging Spectrometer for Chang'e-1 Lunar Satellite[J].Acta Photonica Sinica,2009,38(3):479-483.[赵葆常,杨建峰,常凌颖, 等.嫦娥一号卫星成像光谱仪光学系统设计与在轨评估[J].光子学报,2009,38(3):479-483.]
[35]Li Chuanrong,Jia Yuanyuan,Hu Jian,et al.An Analysis of the Prospects of HJ-1 Optical Satellites in Remote Sensing Application[J].Remote Sensing for Land & Resources,2008,(3):1-3,9.[李传荣,贾媛媛,胡坚,等.HJ-1光学卫星遥感应用前景分析[J].国土资源遥感,2008,(3):1-3,9.]
[36]Hoff L E,Chen A M,Yu X S,et al.Enhanced Classification Performance from Multiband Infrared Imagery[J].Proceedings of ASILOMAR-29,1995,2(30):837-841.
[37]Otten L J,Silco T L,Rafert J B,et al.Hyperspectral Measurements of Common Camouflages[J].Proceedings of SPIE,1995,2469:517-525.
[38]Winter E M,Schlangen M J,Bowman A P,et al.Experiments to Support the Development of Techniques for Hyperspectral Mine Detection[J].Proceedings of SPIE,1996,2759:139-148.
[39]Zhou D K,Smith W L,Larar A M.Cloud and Thermodynamic Parameters Retrieved from Satellite Ultraspectral Infrared Measurements[J].Proceedings of SPIE,2008,7107:71070N-1-71070N-12.
[40]Zhang Chunmin,Wang Wei,Xiang Libin,et al.Interference Image Spectroscopy for Upper Atmospheric Wind Field Measurement[J].Acta Optica Sinica,2000,20(2):234-239.[张淳民,王炜,相里斌,等.利用干涉成像光谱技术测量大气风场[J].光学学报,2000,20(2):234-239.]
[41]Zhao Haitao,Pei Yanjun,Guo Hailei,et al.Fourier Transform Imaging Spectrometer for Chemical Agent Detection[J].Ship Science and Technology,2006,28(2):80-82,101.[赵海涛,裴彦军,郭海雷,等.傅里叶变换成像光谱技术在化学战剂遥测中的应用[J].舰船科学技术,2006,28(2):80-82,101.]

 

[1] 牛明慧,陈福春. 基于月球反射的遥感仪器在轨定标方法[J]. 遥感技术与应用, 2018, 33(2): 337-341.
[2] 王振占,董帅,殷晓斌,陆浩,李彬. 有源微波冷噪声源的原理及其应用分析[J]. 遥感技术与应用, 2017, 32(2): 247-254.
[3] 龚循武,郭伟,万珺之. 基于有源定标器的HY-2高度计后向散射系数在轨定标方法研究[J]. 遥感技术与应用, 2017, 32(2): 374-379.
[4] 王功雪,蒋玲梅,武胜利,刘晓敬,郝诗睿. FY-3B与FY-3C/MWRI交叉定标及雪深算法应用[J]. 遥感技术与应用, 2017, 32(1): 49-56.
[5] 陈卫英,刘高峰,何嘉恺,潘莉. 降低微波成像仪接收机非线性偏差方法研究[J]. 遥感技术与应用, 2017, 32(1): 121-125.
[6] 陈怡羽,郭强. 中短波红外恒星定标点扩散函数求解及精度分析[J]. 遥感技术与应用, 2017, 32(1): 158-165.
[7] 徐曦煜,刘和光,杨双宝. 星载雷达高度计沙漠散射特性及定标方法研究[J]. 遥感技术与应用, 2016, 31(5): 893-899.
[8] 谌华,郭伟,万珺之,赵飞,王彩云. 基于有源定标器的卫星雷达高度计近海测高基准重建方法研究[J]. 遥感技术与应用, 2016, 31(5): 912-918.
[9] 胡同喜,赵天杰,施建成,谷金枝. AMSR-E与AMSR2被动微波亮温数据交叉定标[J]. 遥感技术与应用, 2016, 31(5): 919-924.
[10] 翟万林,陈春涛,朱建华,闫龙浩. 基于GPS浮标的高度计定标技术研究[J]. 遥感技术与应用, 2016, 31(5): 925-929.
[11] 邢晓达,申茜,李俊生,张方方,庞治国,吕书强. 基于HJ-CCD的漫湾坝区河流悬浮物浓度遥感反演[J]. 遥感技术与应用, 2016, 31(4): 682-690.
[12] 陶利,曲圣杰,陈曦. 简述极化SAR 定标处理技术研究进展[J]. 遥感技术与应用, 2016, 31(3): 459-467.
[13] 李述,刘琪璟. 高程和大气模式对FLAASH模型校正结果的影响[J]. 遥感技术与应用, 2015, 30(5): 939-945.
[14] 张涛,赵少杰,张立新,张钟军,蒋玲梅,柴琳娜. 车载多频率微波辐射计与观测数据应用[J]. 遥感技术与应用, 2015, 30(5): 1012-1020.
[15] 叶沛,许可,徐曦煜. 基于奇异谱分析的DGPS浮标海面高测量误差研究[J]. 遥感技术与应用, 2015, 30(4): 661-666.