气溶胶卫星环境遥感监测应用技术进展
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摘要
面对我国空气重污染的现状,大气污染治理急需对气溶胶及其光学特性进行大范围、高频次、高精度、立体的遥感监测和定量分析。目前,气溶胶遥感监测有多波段、多角度、偏振等被动探测方法,也有激光雷达结合高光谱、偏振的主动探测方法。本文系统分析了目前基于主动、被动遥感探测手段的气溶胶遥感监测应用研究进展,研究发现激光主动探测在大气环境定量监测中的作用更加突出,主被动结合、多手段综合是大气环境监测卫星的发展方向。
引文
[1]激光雷达在气象和大气环境监测中的应用尹青1,2,3何金海1张华2
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[3]姚欢,倪晓昌,王宣,大气激光雷达技术的研究进展
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[10]廖宏,汤金平.A-Train系列卫星对大气的监测研究计划[J].物理,2010,39(7):488-489.
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[27]刘国栋.互联网上的遥感卫星影像数据“超市”[J].太空探索,2016(4).
[28]赵少华,王桥,游代安,等.高分辨率卫星在环境保护领域中的应用[J].国土资源遥感,2015(4):1-7.
[29]董瑶海.风云四号气象卫星及其应用展望[J].上海航天,2016,33(2).
[30]夏俊荣,张镭.Mie散射激光雷达探测大气气溶胶的进展[J].干旱气象,2006,24(4):68-72.
[31]翟崇治,赵昕,许丽萍.激光雷达探测气溶胶算法应用[J].激光杂志,2015(10):105-109.
[32]刘金涛,陈卫标,宋小全.基于碘分子滤波器的高光谱分辨率激光雷达原理[J].光学学报,2010(6):1548-1553.
[33]刘金涛,陈卫标,等.高光谱分辨率激光雷达同时测量大气风和气溶胶光学性质的模拟研究[J].大气科学,2003,27(1):115-122.
[34]伯广宇,刘东,王邦新,等.探测云和气溶胶的机载双波长偏振激光雷达[J].中国激光,2012,39(10):203-208.
[35]张振涛,王伟,苏贵波.激光雷达的现状与发展趋势[J].科技信息,2012(10):431-431.
[36]赵一鸣,李艳华,商雅楠,等.激光雷达的应用及发展趋势[J].遥测遥控,2014,35(5):4-22.
[37]张绪国,江月松,赵一鸣.激光雷达遥感偏振成像系统:c N.
[2]王青梅,张以谟.气象激光雷达的发展现状[J].气象科技,2006,34(3):246-249.
[3]姚欢,倪晓昌,王宣,大气激光雷达技术的研究进展
[4]王毅.新一代对地观测系统的发展[J].地球科学进展,2005,20(9):980-989.
[5]袁本凡.将地球作为行星的空间探测研究值得重视—NASA的EOS计划[C]//中国空间科学学会空间探测专业委员会第十五次学术会议论文集.2002.
[6]Schutz B E,Zwally H J,Shuman C A,et al.Overview of the ICESat Mission[J].Geophysical Research Letters,2005,32(21):97-116.
[7]Stephens G L,Vane D G,Boain R J,et al.The Cloudsat Mission and the A-Train[J].Bulletin of the American Meteorological Society,2002,83(12):1771-1790.
[8]Yu H,Zhang Y,Chin M,et al.An integrated analysis of aerosol above clouds from A-Train multi-sensor measurements[J].Remote Sensing of Environment,2012,121(138):125-131.
[9]Lier P,Bach M.PARASOL a microsatellite in the A-Train for Earth atmospheric observations[J].Acta Astronautica,2008,62(2-3):257-263.
[10]廖宏,汤金平.A-Train系列卫星对大气的监测研究计划[J].物理,2010,39(7):488-489.
[11]Schaepman M E,Grassl H,Johannessen J,et al.ESA-EOEP Science Review Report-Assessment of the Science Benefits derived from the ESA Earth Observation Envelope Programme(EOEP)[J].2005.
[12]Jean-Loup Bezy,Paul Ingmann,Wolfgang Leibrandt,et al.System,spacecraft,and instrument concepts for the ESA Earth Explorer EarthCARE Mission[J].Proc Spie,2005,5978.
[13]Camy-Peyret C,Hauglustaine D,Kelder H,et al.Report for assessment of the earth explorer core mission:Atmospheric composition explorer for chemistry and climate interaction(ACECHEM),[J].Dissertations&Theses-Gradworks,2015.
[14]Borgeaud M,Drinkwater M,Silvestrin P,et al.Status of the ESA earth explorer missions and the new ESA earth observation science strategy[C]//Geoscience and Remote Sensing Symposium.IEEE,2015.
[15]F.Raspini,S.Bianchini,S.Moretti,et al.Advanced interpretation of interferometric SAR data to detect,monitor and model ground subsidence:outcomes from the ESA-GMES Terrafirma project[J].Natural Hazards,2016:1-27.
[16]Donlon C,Berruti B,Buongiorno A,et al.The Global Monitoring for Environment and Security(GMES)Sentinel-3 mission[J].Remote Sensing of Environment,2012,120(6):37-57.
[17]Kaufman Y J,Boucher O,Tanre D,et al.Aerosol anthropogenic component estimated from satellite data[J].Geophysical Research Letters,2005,321(17):317-330.
[18]Vermote E F,Roger J C,Sinyuk A.Fusion of MODIS-MISR aerosol inversion for estimation of aerosol absorption[J].Remote Sensing of Environment,2007,107(1-2):81-89.
[19]Van D A,Martin R V,Brauer M,et al.Global estimates of ambient fine particulate matter concentrations from satellite-based aerosol optical depth:development and application.[J].Environmental Health Perspectives,2010,118(6):847-55.
[20]Deschamps P Y,Breon F M,Leroy M,et al.The POLDER mission:Instrument characteristics and scientific objectives[J].IEEE Transactions on Geoscience&Remote Sensing,1994,32;3(3):598-615.
[21]范学花,陈洪滨,林龙福,等.POLDER-2/PARASOL卫星气溶胶业务产品在北京地区的验证分析(英文)[J].遥感学报,2009,13(1):137-144.
[22]高国龙.美国Glory卫星的气溶胶偏振测量传感器[J].红外,2010(7):46-47.
[23]Werne T,Pingree P,Bekker D.Multiangle Spectropolarimetric Imager(MSPI)On-Board Processing Technology Development and In-Flight Validation for the ACE Decadel Survey Mission[C]//Architectural Institute of Japan,2010:1263-1264.
[24]Winker D M,Pelon J,Coakley J A,et al.The CALIPSO Mission;A Global 3D View of Aerosols and Clouds[J].Bulletin of the American Meteorological Society,2010,91(9):1211-1229.
[25]Winker D M,Vaughan M A,Omar A,et al.Overview of the CALIPSO Mission and CALIOP Data Processing Algorithms[J].Journal of Atmospheric&Oceanic Technology,2009,26(11):2310-2323.
[26]Rodier S D,Palm S P,Jensen M H,et al.Laser Remote Sensing from ISS:the CATS-CALIPSO Cloud and Aerosol Data Products[C]//AGU Fall Meeting.AGU Fall Meeting Abstracts,2014.
[27]刘国栋.互联网上的遥感卫星影像数据“超市”[J].太空探索,2016(4).
[28]赵少华,王桥,游代安,等.高分辨率卫星在环境保护领域中的应用[J].国土资源遥感,2015(4):1-7.
[29]董瑶海.风云四号气象卫星及其应用展望[J].上海航天,2016,33(2).
[30]夏俊荣,张镭.Mie散射激光雷达探测大气气溶胶的进展[J].干旱气象,2006,24(4):68-72.
[31]翟崇治,赵昕,许丽萍.激光雷达探测气溶胶算法应用[J].激光杂志,2015(10):105-109.
[32]刘金涛,陈卫标,宋小全.基于碘分子滤波器的高光谱分辨率激光雷达原理[J].光学学报,2010(6):1548-1553.
[33]刘金涛,陈卫标,等.高光谱分辨率激光雷达同时测量大气风和气溶胶光学性质的模拟研究[J].大气科学,2003,27(1):115-122.
[34]伯广宇,刘东,王邦新,等.探测云和气溶胶的机载双波长偏振激光雷达[J].中国激光,2012,39(10):203-208.
[35]张振涛,王伟,苏贵波.激光雷达的现状与发展趋势[J].科技信息,2012(10):431-431.
[36]赵一鸣,李艳华,商雅楠,等.激光雷达的应用及发展趋势[J].遥测遥控,2014,35(5):4-22.
[37]张绪国,江月松,赵一鸣.激光雷达遥感偏振成像系统:c N.