从可见光到热红外全谱段探测的星载多光谱成像仪器技术发展概述
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摘要
从可见光到热红外的全谱段探测的多光谱成像仪器能够同时对可见光、近红外、短波红外、中波红外、长波红外光谱范围内的多个谱段进行探测,是目前得到广泛研究及应用的成像光谱仪器。这类仪器在国土资源、环境监测、城市遥感、海洋监管等方面均有较高的应用价值。本文概述了此类仪器的国内外研究发展现状,对国外Landsat系列载荷、MODIS、国内的资源系列载荷、高分五号全谱段光谱成像仪等代表性仪器的技术指标和特点进行了总结。通过分析认为更加全面和精细的光谱覆盖、成像方式的改进与技术指标提高、定标手段和定量化水平提高、数据的持续性及稳定性是未来发展的趋势。
A multi-spectral imager with a band range from visible to thermal infrared is a type of imaging spectrometry instrument that can detect multi bands of VIS, NIR, SWIR, MWIR, and LWIR radiation, and it attracts extensive study and has wide applications. It is highly valuable in many applications such as land resources surveys, environmental monitoring, urban remote sensing, and marine supervision. The domestic and international development of such an instrument is outlined in this paper. This paper also summarizes the technical parameters and characteristics of representative instruments including Landsat series, MODIS,CBERS series, and VIMI. Data continuity and stability, increased specification, wide spectral coverage, and improved quantitative applications are the future trends of such technology.
A multi-spectral imager with a band range from visible to thermal infrared is a type of imaging spectrometry instrument that can detect multi bands of VIS, NIR, SWIR, MWIR, and LWIR radiation, and it attracts extensive study and has wide applications. It is highly valuable in many applications such as land resources surveys, environmental monitoring, urban remote sensing, and marine supervision. The domestic and international development of such an instrument is outlined in this paper. This paper also summarizes the technical parameters and characteristics of representative instruments including Landsat series, MODIS,CBERS series, and VIMI. Data continuity and stability, increased specification, wide spectral coverage, and improved quantitative applications are the future trends of such technology.
引文
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[21]Markham B,Barsi J,Kvaran G,et al.Landsat-8 operational land imager radiometric calibration and stability[J].Remote Sensing,2014,6(12):12275-12308.
[22]Barsi J,Schott J,Hook S,et al.Landsat-8 thermal infrared sensor(TIRS)vicarious radiometric calibration[J].Remote Sensing,2014,6(11):11607-11626.
[23]Rex R Kay,Brian C Brock,Tammy D Henson,et al.An introduction to the department of energy’s multispectral thermal imager(MTI)project emphasizing the imaging and calibration subsystems[C/OL]//12th AIAA/USU Conference on Small Satellites,https://www.researchgate.net/publication/267419955_An_Introduction_to_the_Department_of_Energy%27s_Multispectral_Thermal_Imager_MTI_Project_Emphasizin g_the_Imaging_and_Calibration_Subsystems.
[24]Weber P G.Multispectral thermal imager:overview[J].Proceedings of SPIE,2001,4381:173-183.
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[26]Fujisada H,Sakuma F,Ono A,et al.Design and preflight performance of ASTER instrument protoflight model[C]//IEEE Transactions on Geoscience and Remote Sensing,1998,36:1152-1160.
[27]Christine M Lee,Morgan L Cablea,Simon J Hooka,et al.An introduction to the NASA hyperspectral infrared imager(HyspIRI)mission and preparatory activities[J].Remote Sensing of Environment,2015,167:6-19.
[28]Bruno Jau,Bjorn T Eng,Marc Foote,et al.Infrared instrument support for HyspIRI-TIR[C]//SPIE,2012,8511:1-7.
[29]Abrams M J,Hook S J.NASA’s hyperspectral infrared imager(HyspIRI)[M]//Thermal Infrared Remote Sensing,Springer Netherlands,2013:117-130.
[30]赵艳华,戴立群,白绍竣,等.全谱段光谱成像仪集成设计技术先进性分析[C]//第四届高分辨率对地观测学术年会,2017:1-10.ZHAO Yanhua,DAI Liqun,BAI Shaojun,et al.Analysis on the advancedness of integrated design technology of visual and infrared multispectral sensor[C]//The 4th China high resolution earth observation conference,2017:1-10.
[31]武佳丽,余涛,顾行发,等.中国资源卫星现状与应用趋势概述[J].遥感信息,2008(6):96-101.WU Jiali,YU Tao,GU Xingfa,et al.Status and application trend of Chinese earth resources satellites[J].Remote Sensing Information,2008(6):96-101.
[2]李欢,周峰.星载超光谱成像技术发展与展望[J].光学与光电技术,2012,10(5):38-44.LI Huan,ZHOU Feng.Developments of spaceborne hyperspectral imaging technique[J].Optics&Optoelectronic Technology,2012,10(5):38-44.
[3]Thomas S Pagano,Rodney M Durham.Moderate resolution imaging spectroradiometer(MODIS)[C]//SPIE,1993,1939:2-17.
[4]Barnes W.An overview of MODIS radiometric calibration and characterization[J].Advances in Atmospheric Sciences,2006,23(1):69-79.
[5]XIONG X,Angal A,WU A,et al.Terra and Aqua MODIS instrument performance[C]//Geoscience and Remote Sensing Symposium Of IEEE,2016:7388-7391.
[6]XIONG X,CHE N,Barnes W L.Terra MODIS on-orbit spectral characterization and performance[J].IEEE Transactions on Geoscience&Remote Sensing,2006,44(8):2198-2206.
[7]唐绍凡,邓德斌,王健.资源后继星短波红外器件需求分析[J].红外与激光工程,2007,36(z1):137-140.TANG Shaofan,DENG Debin,WANG Jian.Earth resources subsequence satellite short-wave infrared FPA speciality analysis[J].Infrared and Laser Engineering,2007,36(z1):137-140.
[8]张庆君,马世俊.中巴地球资源卫星成就与发展[J].航天器工程,2009,18(4):1-8.ZHANG Qingjun,MA Shijun.Achievements and progress of China-Brazil earth resource satellite[J].Spacecraft Engineering,2009,18(4):1-8.
[9]马文坡.红外多光谱扫描仪设计与评价[J].红外技术,2002,24(5):1-4.MA Wenpo.Design and evaluation of IRMSS[J].Infrared Technology,2002,24(5):1-4.
[10]熊文成,魏斌,孙中平,等.基于环境一号卫星B星CCD与红外相机融合的澳洲火灾监测[J].遥感技术与应用,2010,25(2):178-182.XIONG Wencheng,WEI Bin,SUN Zhongping,et al.Australian forest fire disaster monitoring based on CCD and IRS data of HJ-1-B[J].Remote Sensing Technology and Application,2010,25(2):178-182.
[11]QIAO W,WU C Q,LI Q,et al.Chinese HJ-1A/B satellites and data characteristics[J].Science China Earth Sciences,2010,53(s1):51-57.
[12]白照广,李一凡,杨文涛.中国海洋卫星技术成就与展望[J].航天器工程,2008,17(4):17-23.BAI Zhaoguang,LI Yifan,YANG Wentao.Achievements and prospect of China's ocean satellites[J].Spacecraft Engineering,2008,17(4):17-23.
[13]JIN Y Q,LU N,LIN M.Advancement of Chinese meteorological Feng-Yun(FY)and oceanic Hai-Yang(HY)satellite remote sensing[J].Proceedings of the IEEE,2010,98(5):844-861.
[14]陈桂林,栾炳辉.FY-2C星多通道扫描辐射计及其在轨运行[J].上海航天,2005,22(z1):21-27.CHEN Guilin,RUAN Binhui.Multichannel scanning radiometer of FY-2C meteorological satellite and its on-orbit operation[J].Aerospace Erospace Shanghai,2005,22(z1):21-27.
[15]Thome Kurtis,Tesfaye Zelalem,Smith Ramsey,et al.The operational land imager(OLI)and the thermal infrared sensor(TIRS)on the landsat data continuity mission(LDCM)[C]//SPIE,2011,8048:1-12.
[16]Gupta R P.Important spaceborne missions and multispectral sensors[M]//Remote Sensing Geology,2018.
[17]Kuenzer C,GUO H,Ottinger M,et al.Spaceborne thermal infrared observation-an overview of most frequently used sensors for applied research[M]//Thermal Infrared Remote Sensing,Springer Netherlands,2013:131-148.
[18]赵秋艳.几种新型的星载多光谱和成像光谱仪[J].航天返回与遥感,2002,23(1):36-41.ZHAO Qiuyan.Introduction of several multi-spectral and imaging spectrometers for satellites[J].Spacecraft Recovery&Remote Sensing,2002,23(1):36-41.
[19]Chander G,Markham B L,Helder D L.Summary of current radiometric calibration coefficients for Landsat MSS,TM,ETM+,and EO-1 ALIsensors[J].Remote Sensing of Environment,2009,113(5):893-903.
[20]Markham B L,Knight E J,Canova B,et al.The Landsat data continuity mission operational land imager(OLI)sensor[C]//Geoscience and Remote Sensing Symposium of IEEE,2012:6995-6998.
[21]Markham B,Barsi J,Kvaran G,et al.Landsat-8 operational land imager radiometric calibration and stability[J].Remote Sensing,2014,6(12):12275-12308.
[22]Barsi J,Schott J,Hook S,et al.Landsat-8 thermal infrared sensor(TIRS)vicarious radiometric calibration[J].Remote Sensing,2014,6(11):11607-11626.
[23]Rex R Kay,Brian C Brock,Tammy D Henson,et al.An introduction to the department of energy’s multispectral thermal imager(MTI)project emphasizing the imaging and calibration subsystems[C/OL]//12th AIAA/USU Conference on Small Satellites,https://www.researchgate.net/publication/267419955_An_Introduction_to_the_Department_of_Energy%27s_Multispectral_Thermal_Imager_MTI_Project_Emphasizin g_the_Imaging_and_Calibration_Subsystems.
[24]Weber P G.Multispectral thermal imager:overview[J].Proceedings of SPIE,2001,4381:173-183.
[25]Szymanski J J,Weber P G.Multispectral thermal imager:mission and applications overview[J].IEEE Transactions on Geoscience&Remote Sensing,2005,43(9):1943-1949.
[26]Fujisada H,Sakuma F,Ono A,et al.Design and preflight performance of ASTER instrument protoflight model[C]//IEEE Transactions on Geoscience and Remote Sensing,1998,36:1152-1160.
[27]Christine M Lee,Morgan L Cablea,Simon J Hooka,et al.An introduction to the NASA hyperspectral infrared imager(HyspIRI)mission and preparatory activities[J].Remote Sensing of Environment,2015,167:6-19.
[28]Bruno Jau,Bjorn T Eng,Marc Foote,et al.Infrared instrument support for HyspIRI-TIR[C]//SPIE,2012,8511:1-7.
[29]Abrams M J,Hook S J.NASA’s hyperspectral infrared imager(HyspIRI)[M]//Thermal Infrared Remote Sensing,Springer Netherlands,2013:117-130.
[30]赵艳华,戴立群,白绍竣,等.全谱段光谱成像仪集成设计技术先进性分析[C]//第四届高分辨率对地观测学术年会,2017:1-10.ZHAO Yanhua,DAI Liqun,BAI Shaojun,et al.Analysis on the advancedness of integrated design technology of visual and infrared multispectral sensor[C]//The 4th China high resolution earth observation conference,2017:1-10.
[31]武佳丽,余涛,顾行发,等.中国资源卫星现状与应用趋势概述[J].遥感信息,2008(6):96-101.WU Jiali,YU Tao,GU Xingfa,et al.Status and application trend of Chinese earth resources satellites[J].Remote Sensing Information,2008(6):96-101.