Please wait a minute...
img

官方微信

遥感技术与应用  2009, Vol. 24 Issue (3): 257-262    DOI: 10.11873/j.issn.1004-0323.2009.3.257
技术研究与图像处理     
“环境与灾害监测预报小卫星”高光谱成像仪
相里斌1,王忠厚2,刘学斌2袁艳3,计忠瑛2|吕群波1
(1.中国科学院光电研究院|北京〓100192;2.中国科学院西安光学精密机械研究所|陕西 西安〓710119;3.北京航空航天大学精密光机电一体化技术教育部重点实验室|北京〓100191)
Hyperspectral Imager of the Environment andDisaster Monitoring Small Satellite
XIANG Li-bin1|WANG Zhong-hou2|LIU Xue-bin2|YUAN Yan3|JI Zhong-ying2|LV Qun-bo1
(1.Academy of Opto\|electronics of Chinese Academy Sciences,Beijing 100192,China;
2.Xi′an Institute of Optics and Precision Mechanics of Chinese Academy Sciences,Xi′an 710119,China;3.Key Laboratory of Precision Opto\|mechatronics Technology,Ministry of Education,Beihang University,Beijing 100191,China)
 全文: PDF(1736 KB)  
摘要:

重点介绍作者为“环境与灾害检测预报小卫星”研制的空间调制型Fourier变换高光谱成像仪,介绍了该类仪器的基本原理和“环境与灾害检测预报小卫星”高光谱成像仪总体方案,详细分析了仪器总体技术参数设计方法以及光学、机械、电子、定标和数据复原处理等环节的关键技术,给出了仪器在轨获得的初步数据结果。

关键词: 环境减灾卫星干涉光谱成像技术空间调制    
Abstract:

The principle and scheme of the spatially modulated Fourier transform hyperspectral imager developed by authors for the Chinese Environment and Disaster Monitoring Small Satellite are introduced. The calculation of the main parameters and the key techniques of optics,mechanics,electronics,calibration and data reconstruction are discussed in detail. The first results of datacubes with some spectra obtained by the hyperspectral imager (called EDIS) in orbit are presented.

Key words:  Environment and Disaster Monitoring Small Satellite    Fourier transform hyperspectral imager    Spatially     modulated
收稿日期: 2008-03-02 出版日期: 2010-01-20
:  TP 731  
作者简介: 相里斌(1967-)|男|研究员|博士生导师|主要从事成像光谱、光学成像系统研究。E-mail:xiangli@opt.cn。
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  

引用本文:

相里斌,王忠厚,刘学斌,袁艳,计忠瑛,吕群波. “环境与灾害监测预报小卫星”高光谱成像仪[J]. 遥感技术与应用, 2009, 24(3): 257-262.

XIANG Li-bin|WANG Zhong-hou|LIU Xue-bin|YUAN Yan|JI Zhong-ying|. Hyperspectral Imager of the Environment andDisaster Monitoring Small Satellite. Remote Sensing Technology and Application, 2009, 24(3): 257-262.

链接本文:

http://www.rsta.ac.cn/CN/10.11873/j.issn.1004-0323.2009.3.257        http://www.rsta.ac.cn/CN/Y2009/V24/I3/257

[1] Zou Bin,Zhang Lamei,Sun Deming,et al.Information Extraction Using Polarimetric Interferometric SAR Data:Present and Future[J].Journal of Electronics & Information Technology,2006,28(10):1979-1985.[邹斌,张腊梅,孙德明,等.极化干涉合成孔径雷达图像信息提取技术的进展及未来[J].电子与信息学报,2006,28(10):1979-1985.]
 [2] Krogager E.Aspects of Polarimetric Radar Imaging[D].Doctoral Thesis,TUD,Lyngby,Denmark,May,1993.
 [3] Krogager E,Czyz Z H.Properties of the Sphere,Diplane,Helix Decomposition[C].Proceeding of JIPR'95.Nantes,France,21-23,March 1995,106-114.
 [4] Cameron W L,Youssef N N,Leung L K.Simulated Polarimetric Signatures of Primitive Geometrical Shapes[J].IEEE Transaction,May,1996,GRS-34(3):793-803.
 [5] Touzi R.Characterization of Target Symmetric Scattering Using Polarimetric SARs[J].IEEE Transaction,2002,GRS-40(11):2507-2516.
 [6] Touzi R.Target Scattering Decomposition of One-look and Multi-look SAR Data Using a New Coherent Scattering Model:The TSVM[C].Proceeding of IGARSS'04.Alaska,USA,2004,2491-2494.
 [7] Cloude S R.A Review of Target Decomposition Theorems in Radar Polarimetry[J].IEEE Transaction,1996,GRS-34(2):498-518.
 [8] Touzi R.A Unified Model for Decomposition of Coherent and Partially Coherent Target Scattering using Polarimetric SARs[C].Proceeding of IGARSS'05.Seoul,Korea,2005,7:4844-4847.
 [9] Ainsworth T L,Cloude S R,Lee J S.Eigenvector Analysis of Polarimetric SAR Data[C].Proceeding of IGARSS'02.Toronto,Canada,2002,1:626-628.
[10] Holm W A,Bames R M.On Radar Polarization Mixed Target State Decomposition Techniques[J].IEEE National Radar Conference,1988:249-254.
[11] Freeman A,Durden S.A Three-component Scattering Model to Describe Polarimetric SAR Data[C].Proceeding SPZE Conference on Radar Polarimetry,San Diego,July,1992,213-224.
[12] Moriyama T,Uratsuka S,Umehara T,et al.A Study on Extraction of Urban Areas from Polarimetric Synthetic Aperture Radar Image[C].Proceeding of IGARSS'04.Anchorage,Alaska,2004:703-706.
[13] Moriyama T,Uratsuka S,UmeharaT,et al.Polarimetric SAR Image Analysis Using Model Fit for Urban Structures[J].IEICE Transaction,Communication,2005,E88-B(3):1234-1243.
[14] Yamaguchi Y,Ishido M,Yamada H,et al.A Four-Component Decomposition of PolSAR Image[C].Proceeding of IGARSS'05.Seoul,Korea,2005,6:4073-4076.
[15] Yamaguchi Y,Moriyama T,Ishido M,et al.Four-Component Scattering Model for Polarimetric SAR Image Decomposition[J].IEEE Trans,2005,GRS-43(8):1699-1705.
[16] Yamaguchi Y.A Four-Component Decomposition of PolSAR Images Based on the Coherency Matrix[J].IEEE GRSL.2006:1-5.
[17] Cloude S R,Pottier E.An Entropy Based Classification Scheme for Land Application of Polarimetric SAR[J].IEEE Transaction,1997,GRS-35(1):68-78.
[18] Hellmann M,Jager G,Kratzschmar E,et al.Classification of Full Polarimetric SAR-Data Using Artificial Neural Networks and Fuzzy Algorithms[C].Proceeding of IGARSS'99.Hamburg,Germany,1999,4:1995-1997.
[19] Allain S,Lopez-Martinez C,Ferro-Famil L,et al.New Eigenvalue-based Parameters for Natural Media Characterization[C].Proceeding of IGARSS' 05.Seoul,Korea,2005,1:40-43.
[20] Lee J S,Grunes M R,Kwok R.Classification Of Multi-Look Polarimetric SAR Imagery Based On Complex Wishart Distribution[J].International Journal of Remote Sensing,1994,15(11):2299-2311.
[21] Lee J S,Grunes M R,Ainsworth T L,et al.Unsupervised Classification Using Polarimetric Decomposition and Complex Wishart Classifier[C].Proceeding of IGARSS'98.Seattle,USA,1998,4:2178-2180.
[22] Lee J S,Grunes M R,Ainsworth T L,et al.Unsupervised Classification using Polarimetric Decomposition and The Complex Wishart Classifier[J].IEEE Transaction,1999,GRS-37(5):2249-2258.
[23] Ferro-Famil L,Pottier E,Lee J S.Unsupervised Classification of Multifrequency and Fully Polarimetric SAR Images Based on the H/A/Alpha-Wishart Classifier[J].IEEE Transaction,2001,GRS-39(11):2332-2342.
[24] Lee J S,Grunes M R,Pottier E,et al.Unsupervised Terrain Classification Preserving Polarimetric Scattering Characteristics[J].IEEE Transaction,2004,GRS-42(4):722-731.
[25] Van Zyl J.Unsupervised Classification of Scattering Behavior Using Radar Polarimetry Data[J].IEEE Transaction,1989,GRS-27(1):36-45.
[26] Yamada T,Hoshi T.Expansion of the Unsupervised Classification of Polarimetric SAR Image Based on the Scattering Types Using the Shape Feature of Polarization Signature Diagrams[C].Proceeding of Asian Conference.Remote Sensing.Singapore,2001,2:1055-1060.
[27] Danklmayer A,Chandra M,Luneburg E.Principal Component Analysis in Radar Polarimetry[J].Advances in Radio Science,2005,3:399-400.
[28] Alberga V,Staykova D,Krogager E,et al.Comparison of Methods for Extracting and Utilizing Radar Target Characteristic Parameters [C].Proceeding of IGARSS'05.Seoul,Korea,2005,3:2019-2021.
[29] Oh Y,Sarabandi K,Ulaby F T.An Empirical Model and an Inversion Technique for Radar Scattering from Bare Soil Surfaces[J].IEEE Transaction,1992,GRS-30(2):370-381.
[30] Oh Y.Quantitative Retrieval of Soil Moisture Content and Surface Roughness from Multipolarized Radar Observations of Bare Soil Surfaces[J].IEEE Transaction,2004,GRS-42(3):596-601.
[31] Dubois P C,Van Zyl J.An Empirical Soil Moisture Estimation Algorithm Using Imaging Radar[C].Proceeding of IGARSS'94.8-12 Aug,1994,3:1573-1575.
[32] Dubois P C,Van Zyl J,Engman E T.Measuring Soil Moisture with Imaging Radars[J].IEEE Transaction,1995,GRS-33(4):915-926.
[33] Shi J,Wang J,Hsu A Y,et al.Estimation of Bare Surface Soil Moisture and Surface Roughness Parameter Using L-band SAR Image Data[J].IEEE Transaction,1997,GRS-35(5):1254-1266.
[34] Jil J,Keur P,Thomsen A,et al.Soil Moisture Retrieval Using the Danish L- & C-Band Polarimetric SAR[C].Proceeding of IGARSS'96.Lincoln,Nebraska,USA,1996,2:1300-1302.
[35] Neusch T,Sties M.Experimenting with Radar Backscattering Models Using E-SAR Imagery[C].Proceeding of IGARSS'99.Hamburg,Germany,1999,2628-2630.
[36] Mattia F,Toan T L,Souyris J C,et al.The Effect of Surface Roughness on Multi- Frequency Polarimetric SAR Data[J].IEEE Transaction,1997,GRS-35(4):954-966.
[37] Zribi M,Ciarellti V,Vidal-Madjar D.An Inversion Model of Soil Roughness Based on Two Radar Frequency Measurements[C].Proceeding of IGARSS'99.Hamburg,1999,2:2528- 2530.
[38] Park S E,Moon W M.Inversion of Soil Moisture Content from L-and P-band AIRSAR Polarimetric SAR Data[C].Proceeding of IGARSS'07.Barcelona,Spain,2007,5194-5197.
[39] Schuler D L,Lee J S.Terrain Slope and Surface Roughness Studies Using Circularly Polarized SAR Backscatter[C].Proceeding of IGARSS'98.Seattle,USA,1998,4:2187-2189.
[40] Cloude S R,Papathanassiou K P.Surface Roughness and Polarimetric Entropy[C].Proceeding of IGARSS'99.Hamburg,28 June-2.July 1999:2443-2445.
[41] Cloude S R.Eigenvalue Parameters for Surface Roughness Studies[C].Proceeding of SPIE.Conference.on Polarization:Measurement,ARS II.Denver,Colorado,USA,July 1999,3754:2-13.
[42] Hajnsek I,Pappathanassiou K P,Reigber A,et al.Soil-Moisture Estimation Using Polarimetric SAR Data[C].Proceeding of IGARSS' 99.Hamburg,Germany,1999,5:2440- 2442.
[43] Hajnsek I,Cloude S R,Lee J S,et al.Inversion of Surface Parameters from Polarimetric SAR Data[C].Proceeding of IGARSS' 00.Hawaii,USA,1095-1097.
[44] Allain S,Ferro-Famil L,Pottier E,et al.Extraction of Surface Parameters from Multi-frequency and Polarimetric SAR Data[C].IGARSS'02.Toronto,Canada,2002,1:426-428.
[45] Allain S,Ferro-Famil L,Pottier E.Surface Parameters Retrieval from Polarimetric and Multi-frequency SAR Data[C].Proceeding of IGARSS' 03.Toulouse,France,2003,2:1417-1419.
[46] Breuer A,Hajnsek I,Ferro-Famil L,et al.Full Polarimetry versus Partial Polarimetry For Quantitative Surface Parameter Estimation[C].Proceeding of IGARSS'03.Toulouse,France,2003,1:437-439.
[47] Dobson M C,Pierce L L,Ulaby F T.Semi-Empirical Method for Estimation of Forest Biophysical Properties from Multifrequency Polarimetric SAR[C].Proceeding of IGARSS'94.Anchorage,Alaska,USA,1994,4:2466-2466.
[48] Toan T L,Beaudoin A,Riom J,et al.Relating Forest Biomass to SAR Data[J].IEEE Transaction,March,1992,GRS-30(2):403-411.
[49] Beaudoin A,Toan T L,Goze S,et al.Retrieval of Forest Biomass from SAR Data[J].International Journal of Remote Sensing,1994,15(14):2777-2796.
[50] Souyris J C,Etoan T L.Inversion of Landes Forest Biomass using SIR-C/X-SAR Data:Experiment and Theory[C].IGARSS'95.Firenze,Italy,1995,2:1201-1203.
[51] Cloude S R,Fortuny J,Lopez-Sanchez J M,et al.Wide-Band Polarimetric Radar Inversion Studies for Vegetation Layers[J].IEEE Transaction,September,1999,GRS-37(5):2430-2441.
[52] Praks J,Alasalmi H,Hallikainen M.Polarimetric Properties of Boreal Forest in L- and C-band SAR Images[C].Proceeding of IGARSS' 01.Sydney,Australia,2001,7:3050-3052.
[53] Delbart N,Melon P,Florsch G,et al.Forest Biomass Retrieval Using L-band Polarimetric Measurements[C].IGARSS'02.Toronto,Canada,2002,3:1789-1791.
[54] Lee J S,Krogager E,Ainsworth T L,et al.Polarimetric Analysis of Radar Signature of a Manmade Structure[J].IEEE GRSL,2007,3(4):555-559.
[55] Fujita M,Miho Y.Analysis of a Microwave Backscattering Mechanisms from a Small Urban area Imaged with SIR-C[J].IEEE Transaction on GRS,2006,3(1):10-14.
[56] Leducq P,Ferro-Famil L,Pottier E.Analysis of PolSAR Data of Urban Areas Using Time-Frenquency Diversity[C].Proceeding of EUSAR'06.Dresden,Germany,2006,16-18.
[57] Reigber A,Jager M,He W,et al.Detection and Classification of Urban Structures Based on High-resolution SAR Imagery[C].Proceeding of URBAN 2007.Paris,France,11-13 April 2007:1-6.
[58] Fonte L M,Gautama S,Philips W,et al.Evaluating Corner Detectors for the Extraction of Manmade Structures in Urban areas[C].Proceeding of IGARSS'05.Seoul,Korea,2005,25-29.
[59] Schuler D,Lee J S.Characteristics of Polarimetric SAR Scattering in Urban and Natural Areas[C].Proceeding of EUSAR'06.Dresden,Germany,2006,16-18.
[60] Schiavon G,Solimini D.Modeling Polarimetric SAR Response of Urban Dihedrons[C].Proceeding of PolInSAR'07.Frascati,Italy,2007,22-26.
[61] Wang Cuizhen,Guo Huadong.Lithological Classification of Polarimetric SAR Data with Target Decomposition Method[J].Journal of Remote Sensing,2000,4(3):219-223.[王翠珍,郭华东.极化雷达目标分解方法用于岩性分类[J].遥感学报,2000,4(3):219-223.]
[62] Cheng Jinsong,Shao Yun,Li Zhen.Neural Networks Classification of Quad-polarization SAR Data Based on Target Decomposition[J].Journal of Image and Graphics,2004,9(5):552-556.[陈劲松,邵芸,李震.基于目标分解理论的全极化SAR图像神经网络分类方法[J].中国图象图形学报,2004,9(5):552-556.]
[63] Liu Xiuqing,Yang Ruliang.The Iteration Classification Method and Experiment Study Based on Unsupervised Classification of Fully Polarimetric SAR Image[J].Acta Electronica Sinica,2004,32(12):1982-1986.[刘秀清,杨汝良.基于全极化SAR非监督分类的迭代分类方法[J].电子学报,2004,32(12):1982-1986.]
[64] Liu Xiuqing,Yang Ruliang,Yang Zhen.Unsupervised Classification Methods and Experimental Research of Dual-frequency Fully Polarimetric SAR Images[J].Journal of Electronics & Information Technology,2004,26(11):1738-1745.[刘秀清,杨汝良,杨震.双波段全极化SAR图像非监督分类方法及实验研究[J].电子与信息学报,2004,26(11):1738-1745.]
[65] Li Xiaowei,Chong Jinsong.Decomposition and Classification Method of Pol-SAR Based on the Analysis of Target Coherent Scattering Property[J].Remote Sensing Technology and Application,2007,22(3):443-448.[李晓玮,种劲松.基于目标相干散射特性的极化SAR图像分解分类方法[J].遥感技术与应用,2007,22(3):443-448.]
[66] Wu Yonghui,Ji Kefeng,Yu Wenxian.Unsupervised Classification of Fully Polarimetric SAR Image Using H-α Decomposition and Modified C-Mean Algorithm[J].Journal of Electronics & Information Technology,2007,29(1):30-34.[吴永辉,计科峰,郁文贤.基于H-α和改进C-均值的全极化SAR图像非监督分类[J].电子信息学报,2007,29(1):30-34.]
[67] Wu Yonghui,Ji Kefeng,Li Yu,et al.Segmentation of Multi-Look Fully Polarimetric SAR Images Based on Wishart Distribution and MRF[J].Acta Electronica Sinica,2007,35(12):2302-2306.[吴永辉,计科峰,李禹,等.基于Wishart分布和MRF的多视全极化SAR图像分割[J].电子学报,2007,35(12):2302-2306.]
[68] Cao Fang,Hong Wen,Wu Yirong.An Unsupervised Classification for Fully Polarimetric SAR Data Using Cloude-Pottier Decomposition and Agglomerative Hierarchical Clustering Algorithm[J].Acta Electronica Sinica,2008,36(3):543-546.[曹芳,洪文,吴一戎.基于Cloude-Pottier目标分解和聚合的层次聚类算法的全极化SAR数据的非监督分类算法研究[J].电子学报,2008,36(3):543-546.]
[69] Xu Junyi,Yang Jian,Peng Yingning.A New Classification Method of Dual-Band Polarimetric Radar Remote Sensing Images[J].Science in China Ser.E Information Sciences,2005,35(10):1083-1095.[徐俊毅,杨健,彭应宁.双波段极化雷达遥感图像分类的新方法[J].中国科学E辑:信息科学,2005,35(10):1083-1095.]
[70] Wang Wenguang,Wang Jun,Mao Shiyi.Classification of Polarimetric SAR Images Based on Difference Degree[J].Journal of Electronics & Information Technology,2006,28(11):2007-2010.[王文光,王俊,毛士艺.一种基于差异度的极化SAR图像迭代分类方法[J].电子与信息学报,2006,28(11):2007-2010.]
[71] Wang Zhiyu,Zhu Minhui,Bai Youtian.Optimal State Based ML Classification Method for Multi-band and Full-Polarization SAR Data[J].Journal of Electronics & Information Technology,2001,23(5):507-511.[王之禹,朱敏慧,白有天.基于最优状态的多波段全极化SAR数据ML分类方法[J].电子与信息学报,2001,23(5):507-511.]
[72] Wang Zhiyu,Zhu Minhui,Bai Youtian.Unsupervised Clustering Algorithm Based on the Decomposition of Mueller Matrix[J].Journal of Electronics & Information Technology,2001,23(5):454-459.[王之禹,朱敏慧,白有天.基于Mueller矩阵分解的非监督聚类算法[J].电子与信息学报,2001,23(5):454-459.]
[73] Jin Yaqiu,Chen Fei.Polarimetric Scattering Exponent and Information Entropy of SAR Image and the Applications in Terrain Identification[J].Progress in Natural Science,2003,13(2):174-178.[金亚秋,陈扉.SAR图像中极化散射指数和信息熵及其地表识别应用[J].自然科学进展,2003,13(2):174-178.]
[74] Wang Yang.Lu Jiaguo.Zhang Changyao.A New Algorithm of Target Classification Based on Maximum and Minimum Polarizations[C].Proceeding of ICR2006.CIE '06.Shanghai,China,Oct.,2006:1-4.
[75] Wang Yang,Lu Jiaguo,Wu Xianliang.Application of Polarimetric Target Decomposition in Target Classification[J].Journal of Anhui University Natural Science Edition,2006,30(5):33-36.[汪洋,鲁加国,吴先良.极化目标分解在目标分类中的应用[J].安徽大学学报,2006,30(5):33-36.]
[76] Wang Yang,Lu Jiaguo,Zhang Changyao.Algorithm of Target Classification Based on Target Decomposition and Support Vector Machine[C].Proceeding of APSAR 2007.5-9 Nov.2007:770-774.
[77] Zou Bin,Zhang Lamei,Pei Caihong,et al.The Study of POL-SAR Image Classification Based on SVM[J].Remote Sensing Technology and Application,2007,22(5):633-636.[邹斌,张腊梅,裴彩红,等.基于SVM的POL-SAR图像分类研究[J].遥感技术与应用,2007,22(5):633-636.]
[78] Xiao Shunping,Guo Guirong,Zhuang Zhaowen,et al.Radar Target Identification Based on Eigenpolarization[J].Journal of National University of Defense Technology,1995,17(4):43-50.[肖顺平,郭桂蓉,庄钊文,等.基于本征极化的飞机目标识别[J].国防科技大学学报,1995,17(4):43-50.]
[79] Xiao Shunping,Guo Guirong,Zhuang Zhaowen,et al.A Met-hod of Polarization Radar Target Recognition based on Curvefitting by Means of the Least Square Estimation of Parameters[J].Acta Electronica Sinica,1997,25(3):32-36,54.[肖顺平,郭桂蓉,庄钊文,等.基于含参最小二乘估计曲线拟合的极化雷达目标识别方法[J].电子学报,1997,25(3):32-36,54.]
[80] Xu Zhenhai,Wang Xuesong,Zhou Ying,et al.Study on High-Resolution Polarization Radar Target Detection Algorithm Based on PWF[J].Acta Electronica Sinica,2001,29(12):1620-1622.[徐振海,王雪松,周颖,等.基于PWF 融合的高分辨极化雷达目标检测算法[J].电子学报,2001,29(12):1620-1622.]
[81] Gao Mingxing,Yang Jian,Peng Yingning.Extraction of Target Characteristics in Polarimetric Radar Remote Sensing[J].Chinese Journal of Radio Science,2004,19(4):418-421.[高明星,杨健,彭应宁.极化雷达遥感中目标特征提取[J].电波科学学报,2004,19(4):418-421.]
[82] Yu Dayang,Zhou Lu,Yang Jian,et al.Highway Bridge Fetection Based on Polarimetric SAR Data[J].Journal of Tsinghua University (Sci & Tech),2005,45(7):888-891.[于大洋,周露,杨健,等.基于极化合成孔径雷达数据的桥梁检测[J].清华大学学报(自然科学版),2005,45(7):888-891.]
[83] Jin Yaqiu,Dai Eryan.Reconstruction of the 3D Stereo Buildings from Polarimetric SAR Images in Two Converse Flights[C].Proceeding of URBAN 2007.Paris,France,2007,11-13.
[84] Zou Bin,Sun Deming,Zhang Lamei,et al.Building Extraction Using C Band PolSAR Data[C].Proceeding of IGARSS'06.Denver,Colorado,USA,31 July-04 Aug,2006,1262-1265.

85 Zhang L M,Zou B,Cai H G,et al.Multiple-Component Scattering Model for Polarimetric SAR Image DecompositionJ.IEEE GRSL,2008,5(4):603-607.

[1] 陈国茜,周秉荣,胡爱军. 垂直干旱指数在高寒农区春旱监测中的应用研究[J]. 遥感技术与应用, 2014, 29(6): 949-953.
[2] 温 奇,范一大,陈世荣,孙 灏,胡卓玮. 环境减灾卫星数据在旱灾预警监测中的应用[J]. 遥感技术与应用, 2012, 27(4): 591-599.
[3] 计忠瑛,相里斌,王忠厚,黄 ,袁艳. 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.