光谱成像仪定标技术研究
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摘要
本论文重点研究了光谱成像仪定标技术,主要内容包括:
1、介绍了光谱成像仪的10种分类及代表仪器,详细介绍滤光片型、色散型和干涉型光谱成像仪的成像原理,并对三类仪器的异同点进行分析。
2、在介绍CCD相机、色散型光谱成像仪定标原理的基础上,全面总结干涉型光谱成像仪的定标原理,包括光谱定标原理,相对辐射定标原理和绝对辐射定标原理,详细论述实验室定标、野外定标、星上定标和替代定标方法,并分析了CCD相机、色散型光谱成像仪和干涉型光谱成像仪定标原理的异同点。
3、详细介绍不确定度的概念和评价方法,全面总结干涉光谱成像仪不同阶段、不同内容定标方法的不确定度因子及合成不确定度。
4、在调研机载和星载遥感器定标状况的基础上,重点介绍了AVIRIS(Airborne Visible/Infrared Imaging Spectrometer)的实验室定标、MODIS(MODerateresolution Imaging Spectrometer)的星上定标和FTHSI(Fourier TransformHyper Spectral Imager)的实验室定标和星上定标。
5、针对“环境与灾害监测预报卫星”超光谱成像仪(空间调制干涉光谱成像仪),给出了实验室光谱定标、相对辐射定标和绝对辐射定标和不确定度分析的详细结果。
本论文的主要创新点是:
1、全面总结干涉光谱成像仪定标原理,提出具有可实施性的定标方法和步骤:
2、提出一种用于实验室相对定标的方法—单色仪相对定标法;
3、提出实验室定标(光谱定标、相对定标和绝对定标)、野外定标、星上定标和替代定标不确定因子分析方法。
The spectrometric calibration technology is studied in this thesis, including:
1. Tenth class of imaging spectrometer and typical instruments is classified.The theories of Filtering spectrometer, Dispersive spectrometer and Interferometric spectrometer are introduced detailed and the similarities and differences of them is analyzed.
2. The calibration theories of CCD camera and Dispersive spectrometer are introduced, the calibration theories of Interferometric spectrometer is summarized, including theories of Spectral Calibration, Relative Radiometric Calibration and Absolute Radiometric Calibration. Preflight Laboratory Calibration, Preflight Field Calibration, In-flight Calibration, Ground-based Calibration and cross calibration is introduced in detail and the similarities and differences of calibration theories of CCD camera, Dispersive spectrometer and Interferometric spectrometer are analyzed.
3. The conception and evaluation method of uncertainty are introduced in detail. The uncertainty factors and composed uncertainty of phases and contents are summarized.
4. The status of remote sensor calibration is researched, Preflight Laboratory Calibration of AVIRIS (Airborne Visible/Infrared Imaging Spectrometer), In-flight Calibration of MODIS (MODerate resolution Imaging Spectrometer) and both calibration of FTHSI (Fourier Transform HyperSpectral Imager) are introduced in emphasis.
5. For hyperspectral imager of "Small Satellite System for Environment and Disaster Monitoring and Forecasting"(spatially modulated spectrometer), the detailed results of Spectral Calibration, Relative Radiometric Calibration and Absolute Radiometric Calibration and uncertainty are given.
The main innovations in this thesis are:
1. The calibration theory of Interferometric spectrometer is summarized, brought forward enforceable method and steps of calibration.
2. A relative radiometric calibration method based on Monochromator is invented.
3. Uncertainty factors and methods of Preflight Laboratory Calibration (Spectral Calibration, Relative Radiometric Calibration and Absolute Radiometric Calibration), Preflight Field Calibration, In-fight Calibration and Vicarious Calibration are invented.
1、介绍了光谱成像仪的10种分类及代表仪器,详细介绍滤光片型、色散型和干涉型光谱成像仪的成像原理,并对三类仪器的异同点进行分析。
2、在介绍CCD相机、色散型光谱成像仪定标原理的基础上,全面总结干涉型光谱成像仪的定标原理,包括光谱定标原理,相对辐射定标原理和绝对辐射定标原理,详细论述实验室定标、野外定标、星上定标和替代定标方法,并分析了CCD相机、色散型光谱成像仪和干涉型光谱成像仪定标原理的异同点。
3、详细介绍不确定度的概念和评价方法,全面总结干涉光谱成像仪不同阶段、不同内容定标方法的不确定度因子及合成不确定度。
4、在调研机载和星载遥感器定标状况的基础上,重点介绍了AVIRIS(Airborne Visible/Infrared Imaging Spectrometer)的实验室定标、MODIS(MODerateresolution Imaging Spectrometer)的星上定标和FTHSI(Fourier TransformHyper Spectral Imager)的实验室定标和星上定标。
5、针对“环境与灾害监测预报卫星”超光谱成像仪(空间调制干涉光谱成像仪),给出了实验室光谱定标、相对辐射定标和绝对辐射定标和不确定度分析的详细结果。
本论文的主要创新点是:
1、全面总结干涉光谱成像仪定标原理,提出具有可实施性的定标方法和步骤:
2、提出一种用于实验室相对定标的方法—单色仪相对定标法;
3、提出实验室定标(光谱定标、相对定标和绝对定标)、野外定标、星上定标和替代定标不确定因子分析方法。
The spectrometric calibration technology is studied in this thesis, including:
1. Tenth class of imaging spectrometer and typical instruments is classified.The theories of Filtering spectrometer, Dispersive spectrometer and Interferometric spectrometer are introduced detailed and the similarities and differences of them is analyzed.
2. The calibration theories of CCD camera and Dispersive spectrometer are introduced, the calibration theories of Interferometric spectrometer is summarized, including theories of Spectral Calibration, Relative Radiometric Calibration and Absolute Radiometric Calibration. Preflight Laboratory Calibration, Preflight Field Calibration, In-flight Calibration, Ground-based Calibration and cross calibration is introduced in detail and the similarities and differences of calibration theories of CCD camera, Dispersive spectrometer and Interferometric spectrometer are analyzed.
3. The conception and evaluation method of uncertainty are introduced in detail. The uncertainty factors and composed uncertainty of phases and contents are summarized.
4. The status of remote sensor calibration is researched, Preflight Laboratory Calibration of AVIRIS (Airborne Visible/Infrared Imaging Spectrometer), In-flight Calibration of MODIS (MODerate resolution Imaging Spectrometer) and both calibration of FTHSI (Fourier Transform HyperSpectral Imager) are introduced in emphasis.
5. For hyperspectral imager of "Small Satellite System for Environment and Disaster Monitoring and Forecasting"(spatially modulated spectrometer), the detailed results of Spectral Calibration, Relative Radiometric Calibration and Absolute Radiometric Calibration and uncertainty are given.
The main innovations in this thesis are:
1. The calibration theory of Interferometric spectrometer is summarized, brought forward enforceable method and steps of calibration.
2. A relative radiometric calibration method based on Monochromator is invented.
3. Uncertainty factors and methods of Preflight Laboratory Calibration (Spectral Calibration, Relative Radiometric Calibration and Absolute Radiometric Calibration), Preflight Field Calibration, In-fight Calibration and Vicarious Calibration are invented.
引文
[1]W.L.Wolfe,Introduction to imaging spectrometers,SPIE Press,1-23,(1997)
[2]R.B.Smith,Introduction to Hyperspectral Imaging,http://www.micro-images.com/getstart/pdf_new/hyperspec.pdf
[3]R.G.Sellar,Classification of imaging spectrometers for remote sensing applications,Optical Engineering,Vol.44,No.1,013602,(2005)
[4]R.G.Sellar,G.D.Boreman,L.E.Kirkland,Comparison of signal collection abilities of different classes of imaging spectrometers,SPIE,Vol.4816,385-396,(2002)
[5]B.L.Markham,Landsat Sensor Performance:History and Current Status,IEEE,Vol.42,No.12,2691-2694,(2004)
[6]J.Andary,P.Spidaliere,Landsat 7 System Design Overview,IEEE,2160,(1996)
[7]X.X XIONG,W.BARNES,An Overview of MODIS Radiometric Calibration and Characterization,IEEE,Vol.23,No.1,69-79,(2006)
[8]G.Vane,T.G.Chrien et al,Spectral and radiometric of the Airborne Visible/Infrared Imaging Spectrometer,SPIE,Vol.834,91-105,(1987)
[9]刘银年,薛永祺等,实用模块化成像光谱仪,红外与毫米波学报,Vol.21,No.1,9-14,(2002)
[10]M.J.Persky,A review of spacebome infrared Fourier transform spectrometers for remote sensing,Rev.Sci.Instrum,Vol.66,No.10,4763-4797,(1995)
[11]韩心志编著,《航天多光谱遥感》,宇航出版社,47-48,(1991)
[12]W.Posselt,D.Lobb,et al,PRISM on-borad characterization,SPIE,Vol.2957,278-286,(1997)
[13]J.Pearlman,C.Segal,et al,Development and Operations of the EO-1 Hyperion Imaging Spectrometer,SPIE,Vol.4135,243-253,(2004)
[14]L.J.Otten,D.Andrew,Meigs,Mightysat Ⅱ.1:An optical design and performance update,SPIE,Vol.2957,390-398,(1997)
[15]G.H.McCabe,D.C.Reuter,D.E.Jennings,et al,Observations using the Airborne Linear Etalon Imaging Spectral Array(LEISA):1 to 2.5 micron hyperspectral imager for remote sensing applications,SHE,Vol.3870,140-149,(1999)
[16]相里斌,《干涉成像光谱技术研究》,博士后研究工作总结报告,西北大学现代物理研究所、中国科学院西安光机所,(1995.8-1997.8)
[17]High Efficiency Hyperspectral Imager(HEHSI) Technical Manual,(2001)
[18]W.E.Bicknell,C.J.Digenis,et al,EO-1 Advanced Land Imager,SPIE,Vol.3750,80-88,(1999)
[19]田媛,赵丽巍等,声光可调谐滤光片作为电热原子吸收光谱仪波长选择器的研究,高等学校化学学报,Vol.23,No.1,38-41,(2002)
[20]T.G.Chrien,C.Chovit,Imaging spectrometer using a liquid crystal tunable filter,SPIE,Vol.1937,92-101,(1993)
[21]杜培胜,郭靖等,液晶可调谐滤光片及其在光谱仪上的应用,红外,Vol.28,No.11,4-8,(2007)
[22]范滨,李刚正等,线性渐变滤光片的制备与测试,光学仪器,Vol28,No4,95-103,(2006)
[23]赵凯华,钟锡华,《光学》,北京大学出版社,18-30,(1982)
[24]韩心志,航天遥感成像光谱仪分光系统,激光与红外,Vol20,No2,20-23,(1990)
[25]袁艳,《成像光谱理论与技术研究》,博士学位论文,中国科学院西安光机所,(2005)
[26]蒋月娟,李全臣,成像光谱技术的新发展,光电子技术与信息,Vol13,No4,26-29,(2000)
[27]相里斌,干涉成像光谱技术,光电工程,Vol.25,No.6,116-119,(1998)
[28]马科斯·玻恩、埃米尔·沃耳夫著、杨葭荪等译,《光学原理》,第七版,电子工业出版社,239-341,(2005)
[29]J.Kauppinen,JariPartanen,《Fourier Transform in Spectroscopy》,78-83,(2001)
[30]Wadsworth W,Dybwad J P,ultra high speed chemical imaging spectrometer,SPIE,Vol.3082,148-154,(1997)
[31]P.R.Griffiths,B.L.Hirsche,et al,Ultra-rapid-scanning Fourier transform infrared spectrometry,Vibrational Spectroscopy,Vol.19,165-176,(1999)
[32]相里斌,赵葆常,薛鸣球,空间调制干涉成像光谱技术,光学学报,Vol.18,No.1,18-22,(1998)
[33]J.B.Rafert,R.G.Sellar,J.H.Blatt,Monolithic Fourier-transform imaging spectrometer,Applied Optics,Vol.34,No.31,7228-7230,(1995)
[34]董瑛,相里斌,赵葆常,大孔径干涉成像光谱仪中的横向剪切干涉仪,光子学报,Vol.28,No.11,991-995,(1999)
[35]董瑛,相里斌,杨建峰,赵葆常,大孔径静态干涉成像光谱仪中横向剪切干涉仪的空间光线分析,光子学报,Vol.28,No.10,901-905,(1999)
[36]M.L.Junttila,Stationary Fourier-transform spectrometer,Applied Optics,Vol.31,No.21,4106-6112,(1992)
[37]D.A.Naylor,B.G.Gom,Ian S.Schofield,et al,Mach-Zenhnder Fourier transform spectrometer for astronomical spectroscopy at submillimeter wavelengths wavelengths,SPIE,Vol.4855,540-551,(2003)
[38]相里斌,高稳定度干涉成像光谱技术,航天高技术青年学术讨论会,黄山,39-45,(1998)
[39]R.F.Horton,C.A.Conger,L.S.Pellegrino,High Etendue Imaging Fourier Transform Spectrometer-initial Results,SPIE,Vol.3118,380-390,(1997)
[40]相里斌,赵葆常,薛鸣球等,轻型高稳定度干涉成像光谱仪原型样机总体设计,863航天技术通讯,16-25,(1999)
[41]韩心志,航天遥感成像光谱仪光谱分光系统,激光与红外,Vol.20,No.2,20-23,(1990)
[42]红外超光谱成像傅里叶变换光谱仪与色散光谱仪的性能比较,《红外月刊》,32-39,(1999)
[43]吴瑾光主编,《近代傅里叶变换红外光谱技术及应用》,科学技术文献出版社,16-19,(1994)
[44]李全臣、蒋月娟编著,《光谱仪器原理》,北京理工大学出版社,(2003)
[45]范东栋,王建岗,邬敏贤,用于遥感光谱探测的干涉成像光谱技术,航天返回与遥感,Vol.22,No.4,52-57 29,(2001)
[1]陈曙,遥感系统的光谱辐射定标,遥感信息,No.31,19-21,(1995)
[2]陈述彭,《遥感大辞典》,科学上出版社,136,(1990)
[3]E.M.Granger,A Calibration Method for Radiometric and Wavelength Calibration of a Spectrometer,SPIE,Vol.3648,237-241,(1998)
[4]H.Werij,B.Kruizinga,et al,Calibration aspects of remote sensing spaceborne spectrometers,SPIE,Vol.2820,126-137,(1996)
[5]J.T.Houghton,Calibration of satellite radiation instruments,Applied Optics,Vol.16,No.2,295-296,(1977)
[6]R.S.Fraser,Y.J.Kanfman,Calibration of satellite sensors after launch,Applied Optics,Vol.25,No.7,1177-1185,(1986)
[7]E.O.Mongain,S.Danaher,D.Buckton,J.L.Bezy,Definition of the calibration requirements for an imaging spectrometer system,SPIE,Vol.1938,88-99,(1993)
[8]N.P.Fox,Improved radiometric calibration techniques for multi-spectral remote sensing satellite instrumentation,SPIE,Vol.2585,257-266,(1995)
[9]A.Villemaire,M.Chamberland,Radiometric Calibration of FT-IR Remote Sensing Instrument,SPIE,Vol.3082,83-91,(1997)
[10]R.O.Green,Spectral calibration requirement for Earth-looking imaging spectrometers in the solar-reflected spectrum,Applied Optics,Vol.37 No.4,683-690,(1998)
[11]P.N.Slater,S.F.Biggar et al,Unified approach to pre- and in-flight satellite-sensor absolute radiometric calibration,SPIE,Vol.2583,130-141,(1995)
[12]崔敦杰,成像光谱仪的定标,遥感技术与应用,Vol.11,No.3,56-64,(1996)
[13]杨宜,成像光谱仪光谱定标技术,《红外》月刊,Vol.27,No.8,24-26 32,(2006)
[14]H.Werij,星载遥感光谱仪的定标状况(上),《红外》月刊,Vol.1,29-35,(2000)
[15]H.Werij,星载遥感光谱仪的定标状况(上),《红外》月刊,Vol.2,37-42,(2000)
[16]孙毅义,郭常忠等,星载遥感器的可见和近红外波段的绝对定标,测试技术学报,Vol.13,No.1,1-7,(1999)
[17]李家仓,遥感仪器的实验室定标:概述与讨论,《红外》月刊,Vol.7,16-22,(2003)
[18]P.Strobl,A.Mueller,et al,Laboratory calibration and in-flight validation of the Digital Airborne Imaging Spectrometer DAIS 7915,SPIE,Vol.3071,225-336,(1997)
[19]ZHENG Qinbo,DING Lei,Radiant calibration for solar channels of space-borne remote sensor,SPIE,Vol.3505,139-143,(1998)
[20]J.S.Lee,Y.H.Jeong,CCD camera calibrations and projection error analysis,IEEE,Vol.2,50-55,(2000)
[21]G.Vane,R.O.Green,et al,Spectral and Radiometric Laboratory Calibration of the Airborne Visible/Infrared Imaging Spectrometer,SPIE,Vol.834,91-101,(1987)
[22]相里斌,计忠瑛等,空间调制干涉光谱成像仪定标技术研究,光子学报,Vol.33,No.7,850-853,(2004)
[23]赵凯华,钟锡华,《光学》,北京大学出版社,172-177,(1982)
[24]A.B.David,A.Ifarraguerri,Computation of a spectrum from a single-beam Fourier-transform infrared interferogram,Applied Optics,Vol.41,No.6,1181-1189,(2006)
[25]计忠瑛,HJ超光谱成像仪辐射度及光谱定标试验大纲,HJ项目内部报告,(2005)
[26]P.G.Lucey,E.M.Winter,Requirements for calibration of focal plane arrays for imaging spectrometers,SPIE,Vol.3498,305-310,(1998)
[27]邓湘金,杨民,路宏年等,CCD像元间暗电流和响应不一致性的矫正方法,华北工学院学报,Vol.21,No.1,20-22,(2000)
[28]王宇舟,金声震等,一种星载CCD的标定与图像改正技术,理论与实践,VOL.24,No.6,4-624,(2004)
[29]丁玉美,高西全,彭学愚,《数字信号处理》,西安电子科技大学出版社,34-37,(2000)
[30]计忠瑛,HJ超光谱成像仪外场辐射定标入瞳光谱辐射亮度测试细则,HJ项目内部报告,(2006)
[31]陈海龙,星上定标技术概述,《红外》月刊,Vol.6,9-14,(2003)
[32]K.Krause,S.Biggar,On-orbit radiometric calibration using a solar diffuser,Vol.4483,135-145,(2002)
[33]白云鹏,星载多光谱遥感器太阳定标技术研究,航天返回与遥感,Vol.17,No.4,14-21,(1999)
[34]顾名澧,星载多光谱遥感器太阳定标技术的进展,中国空间科学技术,Vol.2,35-43,(2002)
[35]R.J.Parada,K.J.Thome,et al,Radiometer calibrations using solar radiation,SPIE,Vol.3117,253-261,(1997)
[36]P.N.Slater,J.M.Palmer,Solar-diffuser panel and ratioing radiometer approach to satellite sensor on-board calibration,SPIE,Vol.1493,100-105,(1991)
[37]K.H.S(u|¨)mnich,B.Kunkel,B.Harnisch,Radiance source for in-flight calibrations of VIS-NIR-spectrometers,SPIE,Vol.3439,410-415,(1998)
[38]T.C.Stone,H.H.Kieffer,Absolute Irradiance of the Moon for On-orbit Calibration,SPIE,Vol.4814,211-221,(2002)
[39]I.F.Grant,H.H.kieffer,et al,Lunar calibration of geostationary visible-band imagers,SPIE,Vol.3498,337-347,(1998)
[40]查鹏,空间相机星上辐射定标技术的研究,《红外》,Vol.27,No.3,32-38,(2006)
[41]H.R.Gene,the Absolute radiometric calibration of space-based sensors,the University of Arizona,university of Arizona,PH.D thesis,(1987)
[42]徐博明,《气象卫星有效载荷技术》,宇航出版社,296-298,(2005)
[43]K.J.Thome,ground-looking radiometric calibration approaches for remote sensing imagers in the solar reflective,http://www.isprs.org/commission1/proceedings02/paper/00039.pdf
[44]K.P.Scott,Radiometric calibration of on-orbit satellite sensors using an improved cross-calibration metrod,university of Arizona,PH.D thesis,(1987)
[45]王志民,中国资源卫星绝对辐射校正场,国土资源遥感,Vol.41,No.3,40-46,(1999)
[1]盛骤,谢式千,潘承毅编,概率论与数理统计,高等教育出版社,99-126,(1999)
[2]钱绍圣,测量不确定度,清华大学出版社,1-99,(2002)
[3]费业泰,误差理论与数据处理,机械工业出版社,1-93,(2003)
[4]计忠瑛,HJ超光谱成像仪鉴定级产品辐射度定标精度分析,HJ项目内部报告,(2006)
[5]许秀贞,李自田,薛利军,CCD噪声分析及处理技术,红外与激光工程,Vol.33,No.4,343-346 357,(2004)
[6]李晓文,李维亮,周秀骥,中国近30年太阳辐射状况研究,应用气象学报,Vol.9,No.1,24-31,(1998)
[7]吕群波,《干涉光谱成像数据处理技术》,博士学位论文,中国科学院西安光机所,(2007)
[8]陈家风,陈海清,陈卓,面阵CCD各像元光电变换非线性度探讨,华中科技大学学报(自然科学版),Vol.30,No.10,99-101,(2002)
[9]崔燕,计忠瑛,高静等,空间调制干涉光谱成像仪偏振度测试,光子学报,Vol.37,No.6,1205-1207,(2008)
[10]计忠瑛,HJ超光谱成像仪外场辐射定标入瞳光谱辐射亮度测试细则,HJ项目内部报告,(2006)
[11]徐博明,《气象卫星有效载荷技术》,宇航出版社,306-310,(2005)
[12]P.N.Slater,S.F.Biggar and J.M.Palmer,Ground-reference site and on-board methods for sensor absolute calibration in the 0.4 to 2.5μm range,IEEE,1349-1351,(1991)
[1]G.Vane,T.G.Chrien,E.A.Miller,J.H.Reimer,Spectral radiometric calibration of the Airborne Visible/Infrared Imaging Spectrometer,SPIE,Vol.834,91-101,(1987)
[2]X.Xiong,K.Chiang,J.Sun,et al,Aqua MODIS first year on-orbit calibration and performance,SPIE,Vol.5234,391-399,(2004)
[3]L.J.O.Ш,MightySat П.1 fourier transform hyperspectral imager payload performance,SPIE,Vol.2583,566-575,(1995)
[4]L.J.O.Ш,A.D.Meigs,B.A.Jones,et al,The engineering model for the MightSat.П.1hyperspectral imager,SPIE,Vol.3221,412-420,(1997)
[5]W.M.Porter,H.T.Enmark,A system overview of the airborne Visible/Infrared Imaging Spectrometer(AVIRIS),SPIE,Vol.834,166-174,(1987)
[6]R.O.Green,G.Vane,J.E.Conel,Determination of in-flight Aviris spectral,radiometric,spatial and signal-to-noise characteristics using atmospheric and surface measurement form the vicinity of the rare-earth-beating carbonatite at mountain pass,California,AVIRIS proceedings,71-74,(1988)
[7]R.O.Green,J.E.Conel,V.Carrere,et al,Determination of the In-Flight spectral and radiometric characteristics of the airborne Visible/Infrared Imaging Spectrometer(AVIRIS),AVIRIS proceedings,15-34,(1990)
[8]R.O.Green,J.E.Conel,C.J.Bruegge,et al,In-flight calibration of the spectral and radiometric characterics of AVIRIS in 1991,AVIRIS proceeding,1-4,(1992)
[9]Kohei Arai,Error budget analysis of the proposed vicarious calibration method with an on-site calibration,AVIRIS proceedings,(2000)
[10]X.Xiong,A.Wu,J.Sun,et al,An overview of inter-comparison methodologies for Terra and Aqua MODIS calibration,SPIE,Vol.6296,62960C,(2006)
[11]K.Thome,J.C.Myers,S.Biggar,Vicarious calibration of Aqua and Terra MODIS,SPIE,Vol.5151,395-405,(2003)
[12]X.Xiong,W.Barnes,An overview of MODIS radiometric calibration and characterization,ADVANCES IN ATMOSPHERIC SCIENCES,Vol 23,No 1,69-79,(2006)
[13]L.J.O.Ш,A.D.Meigs,R.G.Sellar,et al,Measured performance of an Airborne Fourier Transform Hyperspectral Imager,SPIE,Vol.2819,291-299,(1996)
[14]2LT.S.Yarbrough,T.Caudill,M.E.Kouba,et al,MightSat.П.1 hyperspectral imager:summary of on-orbit performance,SPIE,Vol.4480,186-197,(2002)
[2]R.B.Smith,Introduction to Hyperspectral Imaging,http://www.micro-images.com/getstart/pdf_new/hyperspec.pdf
[3]R.G.Sellar,Classification of imaging spectrometers for remote sensing applications,Optical Engineering,Vol.44,No.1,013602,(2005)
[4]R.G.Sellar,G.D.Boreman,L.E.Kirkland,Comparison of signal collection abilities of different classes of imaging spectrometers,SPIE,Vol.4816,385-396,(2002)
[5]B.L.Markham,Landsat Sensor Performance:History and Current Status,IEEE,Vol.42,No.12,2691-2694,(2004)
[6]J.Andary,P.Spidaliere,Landsat 7 System Design Overview,IEEE,2160,(1996)
[7]X.X XIONG,W.BARNES,An Overview of MODIS Radiometric Calibration and Characterization,IEEE,Vol.23,No.1,69-79,(2006)
[8]G.Vane,T.G.Chrien et al,Spectral and radiometric of the Airborne Visible/Infrared Imaging Spectrometer,SPIE,Vol.834,91-105,(1987)
[9]刘银年,薛永祺等,实用模块化成像光谱仪,红外与毫米波学报,Vol.21,No.1,9-14,(2002)
[10]M.J.Persky,A review of spacebome infrared Fourier transform spectrometers for remote sensing,Rev.Sci.Instrum,Vol.66,No.10,4763-4797,(1995)
[11]韩心志编著,《航天多光谱遥感》,宇航出版社,47-48,(1991)
[12]W.Posselt,D.Lobb,et al,PRISM on-borad characterization,SPIE,Vol.2957,278-286,(1997)
[13]J.Pearlman,C.Segal,et al,Development and Operations of the EO-1 Hyperion Imaging Spectrometer,SPIE,Vol.4135,243-253,(2004)
[14]L.J.Otten,D.Andrew,Meigs,Mightysat Ⅱ.1:An optical design and performance update,SPIE,Vol.2957,390-398,(1997)
[15]G.H.McCabe,D.C.Reuter,D.E.Jennings,et al,Observations using the Airborne Linear Etalon Imaging Spectral Array(LEISA):1 to 2.5 micron hyperspectral imager for remote sensing applications,SHE,Vol.3870,140-149,(1999)
[16]相里斌,《干涉成像光谱技术研究》,博士后研究工作总结报告,西北大学现代物理研究所、中国科学院西安光机所,(1995.8-1997.8)
[17]High Efficiency Hyperspectral Imager(HEHSI) Technical Manual,(2001)
[18]W.E.Bicknell,C.J.Digenis,et al,EO-1 Advanced Land Imager,SPIE,Vol.3750,80-88,(1999)
[19]田媛,赵丽巍等,声光可调谐滤光片作为电热原子吸收光谱仪波长选择器的研究,高等学校化学学报,Vol.23,No.1,38-41,(2002)
[20]T.G.Chrien,C.Chovit,Imaging spectrometer using a liquid crystal tunable filter,SPIE,Vol.1937,92-101,(1993)
[21]杜培胜,郭靖等,液晶可调谐滤光片及其在光谱仪上的应用,红外,Vol.28,No.11,4-8,(2007)
[22]范滨,李刚正等,线性渐变滤光片的制备与测试,光学仪器,Vol28,No4,95-103,(2006)
[23]赵凯华,钟锡华,《光学》,北京大学出版社,18-30,(1982)
[24]韩心志,航天遥感成像光谱仪分光系统,激光与红外,Vol20,No2,20-23,(1990)
[25]袁艳,《成像光谱理论与技术研究》,博士学位论文,中国科学院西安光机所,(2005)
[26]蒋月娟,李全臣,成像光谱技术的新发展,光电子技术与信息,Vol13,No4,26-29,(2000)
[27]相里斌,干涉成像光谱技术,光电工程,Vol.25,No.6,116-119,(1998)
[28]马科斯·玻恩、埃米尔·沃耳夫著、杨葭荪等译,《光学原理》,第七版,电子工业出版社,239-341,(2005)
[29]J.Kauppinen,JariPartanen,《Fourier Transform in Spectroscopy》,78-83,(2001)
[30]Wadsworth W,Dybwad J P,ultra high speed chemical imaging spectrometer,SPIE,Vol.3082,148-154,(1997)
[31]P.R.Griffiths,B.L.Hirsche,et al,Ultra-rapid-scanning Fourier transform infrared spectrometry,Vibrational Spectroscopy,Vol.19,165-176,(1999)
[32]相里斌,赵葆常,薛鸣球,空间调制干涉成像光谱技术,光学学报,Vol.18,No.1,18-22,(1998)
[33]J.B.Rafert,R.G.Sellar,J.H.Blatt,Monolithic Fourier-transform imaging spectrometer,Applied Optics,Vol.34,No.31,7228-7230,(1995)
[34]董瑛,相里斌,赵葆常,大孔径干涉成像光谱仪中的横向剪切干涉仪,光子学报,Vol.28,No.11,991-995,(1999)
[35]董瑛,相里斌,杨建峰,赵葆常,大孔径静态干涉成像光谱仪中横向剪切干涉仪的空间光线分析,光子学报,Vol.28,No.10,901-905,(1999)
[36]M.L.Junttila,Stationary Fourier-transform spectrometer,Applied Optics,Vol.31,No.21,4106-6112,(1992)
[37]D.A.Naylor,B.G.Gom,Ian S.Schofield,et al,Mach-Zenhnder Fourier transform spectrometer for astronomical spectroscopy at submillimeter wavelengths wavelengths,SPIE,Vol.4855,540-551,(2003)
[38]相里斌,高稳定度干涉成像光谱技术,航天高技术青年学术讨论会,黄山,39-45,(1998)
[39]R.F.Horton,C.A.Conger,L.S.Pellegrino,High Etendue Imaging Fourier Transform Spectrometer-initial Results,SPIE,Vol.3118,380-390,(1997)
[40]相里斌,赵葆常,薛鸣球等,轻型高稳定度干涉成像光谱仪原型样机总体设计,863航天技术通讯,16-25,(1999)
[41]韩心志,航天遥感成像光谱仪光谱分光系统,激光与红外,Vol.20,No.2,20-23,(1990)
[42]红外超光谱成像傅里叶变换光谱仪与色散光谱仪的性能比较,《红外月刊》,32-39,(1999)
[43]吴瑾光主编,《近代傅里叶变换红外光谱技术及应用》,科学技术文献出版社,16-19,(1994)
[44]李全臣、蒋月娟编著,《光谱仪器原理》,北京理工大学出版社,(2003)
[45]范东栋,王建岗,邬敏贤,用于遥感光谱探测的干涉成像光谱技术,航天返回与遥感,Vol.22,No.4,52-57 29,(2001)
[1]陈曙,遥感系统的光谱辐射定标,遥感信息,No.31,19-21,(1995)
[2]陈述彭,《遥感大辞典》,科学上出版社,136,(1990)
[3]E.M.Granger,A Calibration Method for Radiometric and Wavelength Calibration of a Spectrometer,SPIE,Vol.3648,237-241,(1998)
[4]H.Werij,B.Kruizinga,et al,Calibration aspects of remote sensing spaceborne spectrometers,SPIE,Vol.2820,126-137,(1996)
[5]J.T.Houghton,Calibration of satellite radiation instruments,Applied Optics,Vol.16,No.2,295-296,(1977)
[6]R.S.Fraser,Y.J.Kanfman,Calibration of satellite sensors after launch,Applied Optics,Vol.25,No.7,1177-1185,(1986)
[7]E.O.Mongain,S.Danaher,D.Buckton,J.L.Bezy,Definition of the calibration requirements for an imaging spectrometer system,SPIE,Vol.1938,88-99,(1993)
[8]N.P.Fox,Improved radiometric calibration techniques for multi-spectral remote sensing satellite instrumentation,SPIE,Vol.2585,257-266,(1995)
[9]A.Villemaire,M.Chamberland,Radiometric Calibration of FT-IR Remote Sensing Instrument,SPIE,Vol.3082,83-91,(1997)
[10]R.O.Green,Spectral calibration requirement for Earth-looking imaging spectrometers in the solar-reflected spectrum,Applied Optics,Vol.37 No.4,683-690,(1998)
[11]P.N.Slater,S.F.Biggar et al,Unified approach to pre- and in-flight satellite-sensor absolute radiometric calibration,SPIE,Vol.2583,130-141,(1995)
[12]崔敦杰,成像光谱仪的定标,遥感技术与应用,Vol.11,No.3,56-64,(1996)
[13]杨宜,成像光谱仪光谱定标技术,《红外》月刊,Vol.27,No.8,24-26 32,(2006)
[14]H.Werij,星载遥感光谱仪的定标状况(上),《红外》月刊,Vol.1,29-35,(2000)
[15]H.Werij,星载遥感光谱仪的定标状况(上),《红外》月刊,Vol.2,37-42,(2000)
[16]孙毅义,郭常忠等,星载遥感器的可见和近红外波段的绝对定标,测试技术学报,Vol.13,No.1,1-7,(1999)
[17]李家仓,遥感仪器的实验室定标:概述与讨论,《红外》月刊,Vol.7,16-22,(2003)
[18]P.Strobl,A.Mueller,et al,Laboratory calibration and in-flight validation of the Digital Airborne Imaging Spectrometer DAIS 7915,SPIE,Vol.3071,225-336,(1997)
[19]ZHENG Qinbo,DING Lei,Radiant calibration for solar channels of space-borne remote sensor,SPIE,Vol.3505,139-143,(1998)
[20]J.S.Lee,Y.H.Jeong,CCD camera calibrations and projection error analysis,IEEE,Vol.2,50-55,(2000)
[21]G.Vane,R.O.Green,et al,Spectral and Radiometric Laboratory Calibration of the Airborne Visible/Infrared Imaging Spectrometer,SPIE,Vol.834,91-101,(1987)
[22]相里斌,计忠瑛等,空间调制干涉光谱成像仪定标技术研究,光子学报,Vol.33,No.7,850-853,(2004)
[23]赵凯华,钟锡华,《光学》,北京大学出版社,172-177,(1982)
[24]A.B.David,A.Ifarraguerri,Computation of a spectrum from a single-beam Fourier-transform infrared interferogram,Applied Optics,Vol.41,No.6,1181-1189,(2006)
[25]计忠瑛,HJ超光谱成像仪辐射度及光谱定标试验大纲,HJ项目内部报告,(2005)
[26]P.G.Lucey,E.M.Winter,Requirements for calibration of focal plane arrays for imaging spectrometers,SPIE,Vol.3498,305-310,(1998)
[27]邓湘金,杨民,路宏年等,CCD像元间暗电流和响应不一致性的矫正方法,华北工学院学报,Vol.21,No.1,20-22,(2000)
[28]王宇舟,金声震等,一种星载CCD的标定与图像改正技术,理论与实践,VOL.24,No.6,4-624,(2004)
[29]丁玉美,高西全,彭学愚,《数字信号处理》,西安电子科技大学出版社,34-37,(2000)
[30]计忠瑛,HJ超光谱成像仪外场辐射定标入瞳光谱辐射亮度测试细则,HJ项目内部报告,(2006)
[31]陈海龙,星上定标技术概述,《红外》月刊,Vol.6,9-14,(2003)
[32]K.Krause,S.Biggar,On-orbit radiometric calibration using a solar diffuser,Vol.4483,135-145,(2002)
[33]白云鹏,星载多光谱遥感器太阳定标技术研究,航天返回与遥感,Vol.17,No.4,14-21,(1999)
[34]顾名澧,星载多光谱遥感器太阳定标技术的进展,中国空间科学技术,Vol.2,35-43,(2002)
[35]R.J.Parada,K.J.Thome,et al,Radiometer calibrations using solar radiation,SPIE,Vol.3117,253-261,(1997)
[36]P.N.Slater,J.M.Palmer,Solar-diffuser panel and ratioing radiometer approach to satellite sensor on-board calibration,SPIE,Vol.1493,100-105,(1991)
[37]K.H.S(u|¨)mnich,B.Kunkel,B.Harnisch,Radiance source for in-flight calibrations of VIS-NIR-spectrometers,SPIE,Vol.3439,410-415,(1998)
[38]T.C.Stone,H.H.Kieffer,Absolute Irradiance of the Moon for On-orbit Calibration,SPIE,Vol.4814,211-221,(2002)
[39]I.F.Grant,H.H.kieffer,et al,Lunar calibration of geostationary visible-band imagers,SPIE,Vol.3498,337-347,(1998)
[40]查鹏,空间相机星上辐射定标技术的研究,《红外》,Vol.27,No.3,32-38,(2006)
[41]H.R.Gene,the Absolute radiometric calibration of space-based sensors,the University of Arizona,university of Arizona,PH.D thesis,(1987)
[42]徐博明,《气象卫星有效载荷技术》,宇航出版社,296-298,(2005)
[43]K.J.Thome,ground-looking radiometric calibration approaches for remote sensing imagers in the solar reflective,http://www.isprs.org/commission1/proceedings02/paper/00039.pdf
[44]K.P.Scott,Radiometric calibration of on-orbit satellite sensors using an improved cross-calibration metrod,university of Arizona,PH.D thesis,(1987)
[45]王志民,中国资源卫星绝对辐射校正场,国土资源遥感,Vol.41,No.3,40-46,(1999)
[1]盛骤,谢式千,潘承毅编,概率论与数理统计,高等教育出版社,99-126,(1999)
[2]钱绍圣,测量不确定度,清华大学出版社,1-99,(2002)
[3]费业泰,误差理论与数据处理,机械工业出版社,1-93,(2003)
[4]计忠瑛,HJ超光谱成像仪鉴定级产品辐射度定标精度分析,HJ项目内部报告,(2006)
[5]许秀贞,李自田,薛利军,CCD噪声分析及处理技术,红外与激光工程,Vol.33,No.4,343-346 357,(2004)
[6]李晓文,李维亮,周秀骥,中国近30年太阳辐射状况研究,应用气象学报,Vol.9,No.1,24-31,(1998)
[7]吕群波,《干涉光谱成像数据处理技术》,博士学位论文,中国科学院西安光机所,(2007)
[8]陈家风,陈海清,陈卓,面阵CCD各像元光电变换非线性度探讨,华中科技大学学报(自然科学版),Vol.30,No.10,99-101,(2002)
[9]崔燕,计忠瑛,高静等,空间调制干涉光谱成像仪偏振度测试,光子学报,Vol.37,No.6,1205-1207,(2008)
[10]计忠瑛,HJ超光谱成像仪外场辐射定标入瞳光谱辐射亮度测试细则,HJ项目内部报告,(2006)
[11]徐博明,《气象卫星有效载荷技术》,宇航出版社,306-310,(2005)
[12]P.N.Slater,S.F.Biggar and J.M.Palmer,Ground-reference site and on-board methods for sensor absolute calibration in the 0.4 to 2.5μm range,IEEE,1349-1351,(1991)
[1]G.Vane,T.G.Chrien,E.A.Miller,J.H.Reimer,Spectral radiometric calibration of the Airborne Visible/Infrared Imaging Spectrometer,SPIE,Vol.834,91-101,(1987)
[2]X.Xiong,K.Chiang,J.Sun,et al,Aqua MODIS first year on-orbit calibration and performance,SPIE,Vol.5234,391-399,(2004)
[3]L.J.O.Ш,MightySat П.1 fourier transform hyperspectral imager payload performance,SPIE,Vol.2583,566-575,(1995)
[4]L.J.O.Ш,A.D.Meigs,B.A.Jones,et al,The engineering model for the MightSat.П.1hyperspectral imager,SPIE,Vol.3221,412-420,(1997)
[5]W.M.Porter,H.T.Enmark,A system overview of the airborne Visible/Infrared Imaging Spectrometer(AVIRIS),SPIE,Vol.834,166-174,(1987)
[6]R.O.Green,G.Vane,J.E.Conel,Determination of in-flight Aviris spectral,radiometric,spatial and signal-to-noise characteristics using atmospheric and surface measurement form the vicinity of the rare-earth-beating carbonatite at mountain pass,California,AVIRIS proceedings,71-74,(1988)
[7]R.O.Green,J.E.Conel,V.Carrere,et al,Determination of the In-Flight spectral and radiometric characteristics of the airborne Visible/Infrared Imaging Spectrometer(AVIRIS),AVIRIS proceedings,15-34,(1990)
[8]R.O.Green,J.E.Conel,C.J.Bruegge,et al,In-flight calibration of the spectral and radiometric characterics of AVIRIS in 1991,AVIRIS proceeding,1-4,(1992)
[9]Kohei Arai,Error budget analysis of the proposed vicarious calibration method with an on-site calibration,AVIRIS proceedings,(2000)
[10]X.Xiong,A.Wu,J.Sun,et al,An overview of inter-comparison methodologies for Terra and Aqua MODIS calibration,SPIE,Vol.6296,62960C,(2006)
[11]K.Thome,J.C.Myers,S.Biggar,Vicarious calibration of Aqua and Terra MODIS,SPIE,Vol.5151,395-405,(2003)
[12]X.Xiong,W.Barnes,An overview of MODIS radiometric calibration and characterization,ADVANCES IN ATMOSPHERIC SCIENCES,Vol 23,No 1,69-79,(2006)
[13]L.J.O.Ш,A.D.Meigs,R.G.Sellar,et al,Measured performance of an Airborne Fourier Transform Hyperspectral Imager,SPIE,Vol.2819,291-299,(1996)
[14]2LT.S.Yarbrough,T.Caudill,M.E.Kouba,et al,MightSat.П.1 hyperspectral imager:summary of on-orbit performance,SPIE,Vol.4480,186-197,(2002)