Validation of MODIS Terra, AIRS, NCEP/DOE AMIP‐II Reanalysis‐2, and AERONET Sun photometer derived integrated precipitable water vapor using ground‐based GPS receivers over India
暂无分享,去创建一个
[1] E. Vermote,et al. The MODIS Aerosol Algorithm, Products, and Validation , 2005 .
[2] William L. Smith,et al. AIRS/AMSU/HSB on the Aqua mission: design, science objectives, data products, and processing systems , 2003, IEEE Trans. Geosci. Remote. Sens..
[3] Steven Businger,et al. GPS Meteorology: Mapping Zenith Wet Delays onto Precipitable Water , 1994 .
[4] Jean-Pierre Aubagnac,et al. Comparison of Near–Real Time Estimates of Integrated Water Vapor Derived with GPS, Radiosondes, and Microwave Radiometer , 2005 .
[5] Vinia Mattioli,et al. Forward model studies of water vapor using scanning microwave radiometers, global positioning system, and radiosondes during the cloudiness intercomparison experiment , 2005, IEEE Transactions on Geoscience and Remote Sensing.
[6] W. Paul Menzel,et al. Cloud and aerosol properties, precipitable water, and profiles of temperature and water vapor from MODIS , 2003, IEEE Trans. Geosci. Remote. Sens..
[7] Christopher D. Barnet,et al. Validation of Atmospheric Infrared Sounder temperature and water vapor retrievals with matched radiosonde measurements and forecasts , 2006 .
[8] Steven Businger,et al. Sensing atmospheric water vapor with the global positioning system , 1993 .
[9] M. Kanamitsu,et al. NCEP–DOE AMIP-II Reanalysis (R-2) , 2002 .
[10] Gunnar Elgered,et al. A Comparison of Precipitable Water Vapor Estimates by an NWP Simulation and GPS Observations , 1999 .
[11] Christopher D. Barnet,et al. Retrieval of atmospheric and surface parameters from AIRS/AMSU/HSB data in the presence of clouds , 2003, IEEE Trans. Geosci. Remote. Sens..
[12] S. Jade,et al. GPS‐based atmospheric precipitable water vapor estimation using meteorological parameters interpolated from NCEP global reanalysis data , 2008 .
[13] Menas Kafatos,et al. Retrieval of water vapor using SSM/I and its relation with the onset of monsoon , 2004 .
[14] Alexander Smirnov,et al. Cloud-Screening and Quality Control Algorithms for the AERONET Database , 2000 .
[15] Evelyne Richard,et al. Validation of precipitable water from ECMWF model analyses with GPS and radiosonde data during the MAP SOP , 2005 .
[16] Christopher R. Webster,et al. Validation of Aqua satellite data in the upper troposphere and lower stratosphere with in situ aircraft instruments , 2004 .
[17] Ramesh P. Singh,et al. Potentiality of multi-sensor satellite data in mapping flood hazard , 2006 .
[18] Yoram J. Kaufman,et al. Water vapor retrievals using Moderate Resolution Imaging Spectroradiometer (MODIS) near‐infrared channels , 2003 .
[19] Christian Rocken,et al. The measurement of atmospheric water vapor: radiometer comparison and spatial variations , 1991, IEEE Trans. Geosci. Remote. Sens..
[20] A. Smirnov,et al. AERONET-a federated instrument network and data archive for aerosol Characterization , 1998 .
[21] Jan-Peter Muller,et al. Comparison of precipitable water vapor derived from radiosonde, GPS, and Moderate‐Resolution Imaging Spectroradiometer measurements , 2003 .
[22] T. Herring,et al. GPS Meteorology: Remote Sensing of Atmospheric Water Vapor Using the Global Positioning System , 1992 .
[23] P. Blanken,et al. Reply to comment by David E. Parker et al. on: Unresolved issues with the assessment of multidecadal global land surface temperature trends , 2007 .
[24] Steven Businger,et al. GPS Meteorology: Direct Estimation of the Absolute Value of Precipitable Water , 1996 .
[25] Pute Wu,et al. Precipitable water vapor on the Tibetan Plateau estimated by GPS, water vapor radiometer, radiosonde, and numerical weather prediction analysis and its impact on the radiation budget , 2005 .
[26] D. J. Allerton,et al. Book Review: GPS theory and practice. Second Edition, HOFFMANNWELLENHOFF B., LICHTENEGGER H. and COLLINS J., 1993, 326 pp., Springer, £31.00 pb, ISBN 3-211-82477-4 , 1995 .
[27] Claire L. Parkinson,et al. Aqua: an Earth-Observing Satellite mission to examine water and other climate variables , 2003, IEEE Trans. Geosci. Remote. Sens..
[28] Steven Businger,et al. The Promise of GPS in Atmospheric Monitoring , 1996 .
[29] Xiuji Zhou,et al. Validation of the Moderate‐Resolution Imaging Spectroradiometer precipitable water vapor product using measurements from GPS on the Tibetan Plateau , 2006 .
[30] W. Bourke,et al. Validation of GPS-based estimates of integrated water vapour for the Australian region and identification of diurnal variability , 2006 .
[31] O. Bock,et al. On the use of GPS tomography to investigate water vapor variability during a Mistral/sea breeze event in southeastern France , 2005 .
[32] Lester L. Yuan,et al. Sensing Climate Change Using the Global Positioning System , 1993 .
[33] Ramesh P. Singh,et al. GPS and satellite meteorology for understanding monsoon dynamics over the Indian sub-continent , 2007 .
[34] James G. Yoe,et al. The Validation of AIRS Retrievals of Integrated Precipitable Water Vapor Using Measurements from a Network of Ground-Based GPS Receivers over the Contiguous United States , 2008 .
[35] Christian Rocken,et al. Sensing integrated water vapor along GPS ray paths , 1997 .
[36] Brent N. Holben,et al. Influence of dust storms on the aerosol optical properties over the Indo‐Gangetic basin , 2004 .
[37] V. Gaur,et al. Estimates of precipitable water vapour from GPS data over the Indian subcontinent , 2005 .
[38] W. Paul Menzel,et al. Remote sensing of cloud, aerosol, and water vapor properties from the moderate resolution imaging spectrometer (MODIS) , 1992, IEEE Trans. Geosci. Remote. Sens..
[39] Richard B. Langley,et al. Comparison of Measurements of Atmospheric Wet Delay by Radiosonde, Water Vapor Radiometer, GPS, and VLBI , 2001 .
[40] T. Eck,et al. Wavelength dependence of the optical depth of biomass burning, urban, and desert dust aerosols , 1999 .
[41] Ying-Hwa Kuo,et al. Assimilation of Precipitable Water Measurements into a Mesoscale Numerical Model , 1993 .
[42] Ramesh P. Singh,et al. Total precipitable water over the Arabian Ocean and the Bay of Bengal using SSM/I data , 2000 .
[43] Anup K. Prasad,et al. Changes in aerosol parameters during major dust storm events (2001–2005) over the Indo‐Gangetic Plains using AERONET and MODIS data , 2007 .
[44] Annmarie Eldering,et al. Characterization of AIRS temperature and water vapor measurement capability using correlative observations , 2005 .
[45] Christian Rocken,et al. Near real‐time GPS sensing of atmospheric water vapor , 1997 .