Volume 4 Issue 6
Dec.  2011
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ZHENG Yu-quan. Development status of remote sensing instruments for greenhouse gases[J]. Chinese Optics, 2011, 4(6): 546-561.
Citation: ZHENG Yu-quan. Development status of remote sensing instruments for greenhouse gases[J]. Chinese Optics, 2011, 4(6): 546-561.

Development status of remote sensing instruments for greenhouse gases

  • Received Date: 17 Sep 2011
  • Rev Recd Date: 22 Nov 2011
  • Publish Date: 25 Dec 2011
  • The paper presents the development process of greenhouse gas remote sensing technology. It introduces the design priciples, work modes, spectral band setting and main specifications of foreign advance high spectral resolution remote sensors for greenhouse gases. Furthermore, It is also specified that greenhouse gas remote sensing technology evolves from synthetical instruments to special instruments. Based on the overview about greenhouse gas remote sensing technology, it discusses the future development trend of this kind of instrument and points out that the main emphasis of the research will be some instruments with higher spectral resolution, higher spatial resolution, wider coverages, shorter periods and higher signal to noise ratios.

     

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  • [1] 刘毅,吕达仁,陈洪斌,等 . 卫星遥感大气CO2的技术与方法进展综述[J]. 遥感技术与应用 ,2011,26(2):247-254. LIU Y,LV D R,CHEN H B,et al.. Advances in technologies and methods for satellite remote sensing of atmospheric CO2[J]. Remote Sensing Technology and Appl.,2011,26(2):247-254.(in Chinese). [2] KING J I F. Scientific Use of Earth Satellites[M]. Ann Arbor Michigam:Ann Arbor University of Michigan Press,1956:133-136. [3] GKAPLAN L D. Inference of atmospheric structure from remote radiation measurement[J]. J. Opt. Soc. Am.,1959,49(10):1004-1007. [4] SMITH W L,WOOLF H M,HAYDEN C M,et al.. The TIROS-N operational vertical sounder[J]. Bull. American Meteorological Society,1979,60:1177-1187. [5] PERSKY M J. A review of spaceborne infrared Fourier transform spectrometers for remote sensing[J]. Rev. Sci, Instrum.,1995(66):4763-4797. [6] KOBAYASHI H,SHIMOTA A,YOSHIGAHARA C,et al.. Satellite-borne high-resolution FTIR for lower atmosphere sounding and its evalution[J]. IEEE T. Geosci. Remote,1999,37(3):1496-1507. [7] KOBAYASHI H,SHIMOTA A,KONDO K,et al.. Development and evaluation of the interferometric monitor for greenhouse gases: a high-throughput Fourier-transform infrared radiometer for nadir Earth observation[J]. Appl. Opt.,1999,38(33):6801-68047. [8] GILLE J C,PAN L,SMITH M W,et al.. Retrieval of carbon monoxide profiles and total methane from MOPITT measurements[J]. Geoscience and Remote Sensing Symposium,1994,2:684-686. [9] AUMANN H H,MILLER C R. The Atmospheric Infrared Sounder(AIRS) on the earth oberving system[J]. SPIE,1995,2583:332-343. [10] BOVENSMANN H,BURROWS J P,BUCHWITZ M,et al.. SCIAMACHY-Mission objectives and measurement modes[J]. J. Atmos. Sci.,1999,56(2):127-150. [11] SOUCY M-A A,CHATEAUNEUF F,DEUTSCH C. ACE-FTS instrument detailed design[J]. SPIE,2002,4814:70-81. [12] BEER R. TES on the aura mission:scientific objectives, measurements and analysis overview[J]. SPIE,2000,4004:600-611. [13] BLUMSTEIN D,CHALON G,CARLIER T. IASI instrument:technical overview and measured performances[J]. SPIE,2004,5543:196-207. [14] SHIMODA H. Overview of Japanese earth observation programs[J]. SPIE,2009,7474:74740G-1. [15] NEECK S P,VOLZ S M. NASA's earth science missions overview[J]. SPIE,2009,7474:74740B-1. [16] MICHAEL B,HEINRICH B,MAXIMILIAN R,et al.. Passive satellite remote sensing of carbon dioxide and methane:SCIAMACHY, GOSAT, CarbonSat[J]. Geophys Res Abstracts,2011,13:6556. [17] MAGER R,FRICKE W,BURROWS J P. SCIAMACHY a new-generation of hyperspectral remote sensing instrument[J]. SPIE,1997,3106:84-94. [18] ZOUTMAN E,OLIJ C. Calibration approach for sciamachy[J]. SPIE,1997,3117:306-316. [19] WERIJ H,OLIJ C,ZOUTMAN A E,et al.. SCIAMACHY the completion of a new-generation instrument for studying the atmosphere[J]. SPIE,1997,2957:20-30. [20] AUMANN H H,CHAHINE M T,CAUTIER,et al.. AIRS/AMSU/HSB on the Aqua mission:design, science objectives, data products, and processing systems[J]. IEEE T. Geosci. Remote,2003,41(2):253-264. [21] MORSE P,BATES J,MILLER C. Development and test of the atmospheric infrared sounder(AIRS). infrared spaceborne remote sensing[J]. SPIE,1999,3759:236-253. [22] ILLER C R. Status of the Atmospheric Infrared Sounder(AIRS)[J]. SPIE,1996,2961:73-90. [23] BROBERG S E,PROBERG T S,AUMANN H H. Atmospheric sounding at JPL:current and future technologies. infrared technology and application[J]. SPIE,2003,5074:600-611. [24] BLUMSTEIN D,TLUMSTEIN B,CAYLA F R. In-flight performance of the infrared atmospheric sounding interferometer(IASI) on METOP-A[J]. SPIE,2007,6684:66840H-1. [25] SIMEONI D,ASTRUC P,MIRAS D,et al.. Design and development of IASI instrument[J]. SPIE,2004,5543:208-219. [26] KUZE A,URABE T,SUTO H,et al.. The instrument and the BBM test results of thermal and near infrared sensor for carbon observation(TANSO) on GOSAT. Infrared Spaceborne Remote Sensing[J]. SPIE,2006,6297:62970K-1. [27] HAMAZAKI T. Greenhouse gases observation from space-overview of TANSO and GOSAT //Proc. of the 7th ICSO(Interenational Conference on Space Optics),Oct 14-17,2008,Toulouse,France,2008. [28] Thermal and near infrared sensor for carbon observation(TANSO) on board the greenhouse gases observing SATellite(GOSAT) research announcement appendix A,outlines of GOSAT and TANSO sensor .(2010-08-09) http://www.gosat.nies.go.ip/eng/proposal/download/GOSAT_RA_A.en.pdf. [29] THOMAS R L,DAVID C. The NASA orbiting carbon observatory(OCO) mission:objectives, approach and status //Pasadena,CA:Jet Propultion Laboratory,National Aeronautic and Space Administration,2008:1-5. [30] CRISP D,MILLER C E,DECOLA P L. NASA orbiting carbon observatory:measuring the column averaged carbon dioxide mole fraction from space[J]. J. Appl. Remote Sensing,2008,2(1):1-14. [31] HARING R,POLLOCK R,SUTIN B. Current development status of the orbiting carbon observatory instrument optical design. Infrared Spaceborne Remote Sensing[J]. SPIE,2005:5883:58830C-1. [32] POLLOCK R,HARING R E,HOLDEN J R. The orbiting carbon observatory instrument: performance of the OCO instrument and plans for the OCO-2 instrument:sensors, systems and next-generation satellites XIV[J]. SPIE,2010,7826:78260W-1. [33] CRISP D. The orbiting carbon observatory:NASA's first dedicated carbon dioxide mission:sensors, systems, and next-generation satellites XII[J]. SPIE,2008,7106:710604-1. [34] LOVE S P. Programmable matched filter and Hadamard transform hyperspectral imagers based on micro-mirror arrays[J]. SPIE,2009,7210:721007-1. [35] 吴军,王先华,方勇华,等. 空间外差光谱技术应用于大气二氧化碳探测的能力分析[J]. 光学学报 ,2011,31(1):1-7. WU J,WANG X H,FANG Y H,et al.. Ability analysis of spatial heterodyne spectrometer in atmospheric CO2 detection[J]. Acta Optica Sinica,2011,31(1):1-7.(in Chinese)
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