Cloud tolerance of remote-sensing technologies to measure land surfacetemperature
暂无分享,去创建一个
Wade T. Crow | Martha C. Anderson | Thomas R. H. Holmes | Christopher Hain | C. Hain | W. Crow | T. Holmes
[1] Wade T. Crow,et al. Enhancing model‐based land surface temperature estimates using multiplatform microwave observations , 2013 .
[2] Wade T. Crow,et al. Spatial patterns in timing of the diurnal temperature cycle , 2013 .
[3] Sofia L. Ermida,et al. Validation of remotely sensed surface temperature over an oak woodland landscape — The problem of viewing and illumination geometries , 2014 .
[4] Thomas J. Jackson,et al. An assessment of surface soil temperature products from numerical weather prediction models using ground‐based measurements , 2012 .
[5] Damien Sulla-Menashe,et al. MODIS Collection 5 global land cover: Algorithm refinements and characterization of new datasets , 2010 .
[6] Martha C. Anderson,et al. Diurnal temperature cycle as observed by thermal infrared and microwave radiometers , 2015 .
[7] M. Owe,et al. On the relationship between thermodynamic surface temperature and high-frequency (37 GHz) vertically polarized brightness temperature under semi-arid conditions , 2001 .
[8] Wade T. Crow,et al. The Impact of Local Acquisition Time on the Accuracy of Microwave Surface Soil Moisture Retrievals over the Contiguous United States , 2015, Remote. Sens..
[9] W. Oechel,et al. FLUXNET: A New Tool to Study the Temporal and Spatial Variability of Ecosystem-Scale Carbon Dioxide, Water Vapor, and Energy Flux Densities , 2001 .
[10] Frank-M. Göttsche,et al. Modelling of diurnal cycles of brightness temperature extracted from METEOSAT data , 2001 .
[11] J. Norman,et al. Terminology in thermal infrared remote sensing of natural surfaces , 1995 .
[12] Filipe Aires,et al. Evaluation of “all weather” microwave‐derived land surface temperatures with in situ CEOP measurements , 2011 .
[13] F. Aires,et al. Toward “all weather,” long record, and real‐time land surface temperature retrievals from microwave satellite observations , 2016 .
[14] R. Jeu,et al. Land surface temperature from Ka band (37 GHz) passive microwave observations , 2009 .
[15] Isabel F. Trigo,et al. Long Term Validation of Land Surface Temperature Retrieved from MSG/SEVIRI with Continuous in-Situ Measurements in Africa , 2016, Remote. Sens..
[16] Annika Bork-Unkelbach,et al. Validation of land surface temperature derived from MSG/SEVIRI with in situ measurements at Gobabeb, Namibia , 2013 .
[17] Wade T. Crow,et al. The impact of land surface temperature on soil moisture anomaly detection from passive microwave observations , 2011 .
[18] F. Aires,et al. A new neural network approach including first guess for retrieval of atmospheric water vapor, cloud liquid water path, surface temperature, and emissivities over land from satellite microwave observations , 2001 .
[19] Thomas J. Jackson,et al. Soil moisture mapping at regional scales using microwave radiometry: the Southern Great Plains Hydrology Experiment , 1999, IEEE Trans. Geosci. Remote. Sens..
[20] Martha C. Anderson,et al. Mapping daily evapotranspiration at field to continental scales using geostationary and polar orbiting satellite imagery , 2010 .
[21] V. Kaplan,et al. Carbon exchange between ecosystems and atmosphere in the Czech Republic is affected by climate factors. , 2011, Environmental pollution.
[22] Catherine Ottlé,et al. Land surface temperature retrieval over circumpolar Arctic using SSM/I-SSMIS and MODIS data , 2015 .
[23] R. Jeu,et al. Multisensor historical climatology of satellite‐derived global land surface moisture , 2008 .