Home
About
Advanced Search
Browse by Discipline
Scientific Societies
E-print Alerts
Add E-prints
FAQ
•
HELP
•
SITE MAP
•
CONTACT US
Search
Advanced Search
Jin, Menglin - Department of Meteorology, San José State University
Hindawi Publishing Corporation Advances in Meteorology
Land surface skin temperature climatology: benefitting from the strengths of satellite observations
ORIGINAL PAPER Development of a parameterization for simulating
MODIS observed seasonal and interannual variations of atmospheric conditions associated with hydrological cycle over Tibetan Plateau
An Improved Land Surface Emissivity Parameter for Land Surface Models Using Global Remote Sensing Observations
Urban aerosols and their variations with clouds and rainfall: A case study for New York and Houston
Meteorol. Atmos. Phys. 80, 117129 (2002) Department of Meteorology, University of Maryland, College Park, Maryland
Remote Sens. 2011, 3, 83-99; doi:10.3390/rs3010083 Remote Sensing
New observational evidence for global warming from satellite Menglin Jin1
Hindawi Publishing Corporation Advances in Meteorology
Aerosol relationships to warm season clouds and rainfall at monthly scales over east China: Urban land versus ocean
681MAY 2005AMERICAN METEOROLOGICAL SOCIETY | U AGU MEETING SESSION--HUMAN-INDUCED
Correcting the orbit drift effect on AVHRR land surface skin temperature measurements
A generalized algorithm for retrieving cloudy sky skin temperature from satellite thermal infrared radiances
Interpolation of surface radiative temperature measured from polar orbiting satellites to a diurnal cycle
Interpolation of surface radiative temperature measured from polar orbiting satellites to a diurnal cycle
JULY 1997 1505J I N E T A L . 1997 American Meteorological Society
587APRIL 2004AMERICAN METEOROLOGICAL SOCIETY | atellite-based surface temperature is referred to
The Footprint of Urban Areas on Global Climate as Characterized by MODIS MENGLIN JIN
Land-Biosphere-Atmosphere Interactions1 Over Tibetan Plateau From MODIS Observations
Landbiosphereatmosphere interactions over the Tibetan plateau from MODIS observations This article has been downloaded from IOPscience. Please scroll down to see the full text article.
