Vern Vanderbilt
Vern Vanderbilt
Earth Division, NASA Ames Research Center
Verified email at
Cited by
Cited by
Terrestrial remote sensing science and algorithms planned for EOS/MODIS
SW Running, CO Justice, V Salomonson, D Hall, J Barker, YJ Kaufmann, ...
International journal of remote sensing 15 (17), 3587-3620, 1994
Hyperspectral remote sensing of foliar nitrogen content
Y Knyazikhin, MA Schull, P Stenberg, M Mõttus, M Rautiainen, Y Yang, ...
Proceedings of the National Academy of Sciences 110 (3), E185-E192, 2013
MODIS land cover product: Algorithm theoretical basis document
AS Strahler, A Moody, E Lambin, A Huete, CD Justice, JP Muller, ...
Boston University, 1994
Plant canopy specular reflectance model
VC Vanderbilt, L Grant
IEEE Transactions on Geoscience and Remote Sensing, 722-730, 1985
Polarization of light scattered by vegetation
VC Vanderbilt, L Grant, CST Daughtry
Proceedings of the IEEE 73 (6), 1012-1024, 1985
Specular, diffuse, and polarized light scattered by two wheat canopies
VC Vanderbilt, L Grant, LL Biehl, BF Robinson
Applied optics 24 (15), 2408-2418, 1985
Vegetation water content during SMEX04 from ground data and Landsat 5 Thematic Mapper imagery
MT Yilmaz, ER Hunt Jr, LD Goins, SL Ustin, VC Vanderbilt, TJ Jackson
Remote Sensing of Environment 112 (2), 350-362, 2008
Water content estimation from hyperspectral images and MODIS indexes in Southeastern Arizona
YB Cheng, SL Ustin, D Riaño, VC Vanderbilt
Remote Sensing of Environment 112 (2), 363-374, 2008
Opportunities for using the EOS imaging spectrometers and synthetic aperture radar in ecological models
SL Ustin, CA Wessman, B Curtiss, E Kasischke, J Way, VC Vanderbilt
Ecology, 1934-1945, 1991
Polarized and specular reflectance variation with leaf surface features
L Grant, CST Daughtry, VC Vanderbilt
Physiologia Plantarum 88 (1), 1-9, 1993
Avian eggs: thermoregulatory value of very high near-infrared reflectance
GS Bakken, VC Vanderbilt, WA Buttemer, WR Dawson
Science 200 (4339), 321-323, 1978
Use of spectral analogy to evaluate canopy reflectance sensitivity to leaf optical properties
F Baret, VC Vanderbilt, MD Steven, S Jacquemoud
Remote Sensing of Environment 48 (2), 253-260, 1994
Influence of solar illumination angle on soybean canopy reflectance
JC Kollenkark, VC Vanderbilt, CST Daughtry, ME Bauer
Applied Optics 21 (7), 1179-1184, 1982
Polarization of light by vegetation
VC Vanderbilt, L Grant, SL Ustin
Photon-vegetation interactions: Applications in optical remote sensing and …, 1991
Polarized and non-polarized leaf reflectances of Coleus blumei
L Grant, CST Daughtry, VC Vanderbilt
Environmental and experimental botany 27 (2), 139-145, 1987
Diurnal change in trees as observed by optical and microwave sensors: The EOS synergism study
JB Way, J Paris, MC Dobson, K McDonals, FT Ulaby, J Weber, L Ustin, ...
IEEE Transactions on Geoscience and Remote Sensing 29 (6), 807-821, 1991
Variability of Reflectance Measurements with Sensor Altitude and Canopy Type1
CST Daughtry, VC Vanderbilt, VJ Pollara
Agronomy Journal 74 (4), 744-751, 1982
Multiband radiometer for field research
BF Robinson, ME Bauer, DP DeWitt, LF Silva, VC Vanderbilt
Measurements of optical radiations 196, 8-15, 1979
Evidence of hot spot directional signature from airborne POLDER measurements
FM Bréon, V Vanderbilt, M Leroy, P Bicheron, CL Walthall, JE Kalshoven
IEEE Transactions on Geoscience and Remote Sensing 35 (2), 479-484, 1997
Polarization photometer to measure bidirectional reflectance factor R (55, 0; 55, 180) of leaves
VC Vanderbilt, L Grant
Optical Engineering 25 (4), 566-571, 1986
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