Department of Physics, University of Helsinki, Finland;
Department of Physics, University of Helsinki, Finland,Finnish Meteorological Institute, Helsinki, Finland;
Department of Physics, University of Helsinki, Finland,Finnish Meteorological Institute, Helsinki, Finland;
Department of Physics, University of Helsinki, Finland;
Finnish Meteorological Institute, Helsinki, Finland;
AEROCOSMOS Research Institute for Aerospace Monitoring, Russia;
Geographical faculty, Moscow State University, Russia;
IG RAS, Russia;
Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences, Beijing, China;
Institute of Remote Sensing and Digital Earth, Chinese Academy of Sciences, Beijing, China;
Institute of Atmospheric Optics, SB RAS, Tomsk, Russia;
Department of Physics, University of Helsinki, Finland;
Danish Meteorological Institute, Denmark,World Meteorological Organization, Geneva, Switzerland;
Finnish Meteorological Institute, Helsinki, Finland;
Department of Physics, University of Helsinki, Finland;
Pan Eurasian Experiment; PEEX; aerosol particles; ground based observations; remote sensing; satellite observations;
机译:四川盆地卫星遥感表面能通量与地面观测的对比分析
机译:注释与对应四川盆地卫星遥感表面能通量与地面观测的对比分析
机译:从Modis和Caliop / Calipso卫星,AERONET光度计和地面LIDAR的遥感数据分析了东北巴西大气中的大气气雾剂光学性质。
机译:麦克粉期间液体云微生物体的原位,卫星和地面遥感检索的比较
机译:对1.4 GHz裸土的遥感土壤水分观测值的验证:通过辐射转移模型的定量方法,以表征由农田中的积水事件引起的突然转变,对辐射转移模型的修改以及基于地面的移动系统
机译:使用卫星遥感和德黑兰的地面气象测量来估算地面PM10
机译:地面遥感与CO,CH4和O3的实地观测的比较,考虑了代表性不确定性
机译:基于卫星和地面遥感数据的近实时大气探测