' 2004 International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Vol XXX V, Part B7. Istanbul 2004
03). truncation approximation. J. Quant. Spectrosc. Radiant.
facts Transfer, 40, 51-69.
orbital
derate Nakajima, T. and M. D. King, 1990: Determination of the
'ager), optical thickness and effective radius of clouds from reflected
terest solar radiation measurements. Part I: theory. J. Atmos. Sci., 47,
1878-1893.
Nakajima, T. Y. "and T. Nakajima, 1995: Wide-area
determination of cloud microphysical properties from NOAA
AVHRR measurements for FIRE and ASTEX regions. J.
GG Atmos. Sci., 52, 4043-4059.
oy of
mate, Rossow, W. B., A. W. Walker, D. E. Beuschel, and M. D.
Roiter, 1996: International Satellite Cloud Climatology Project
(ISCCP) documentation of new cloud datasets. WMO/TD737,
:lobal World Climate Research Programme (ICSU and WMO), 115
using pp.
Rao, C.R.N., and J. Chen, 1994: Post-launch calibration of the
1998: visible and near-infrared channels of the Advanced Very High
on of Resolution Radiometer on NOAA-7, -9, and -11 spacecraft,
NOAA Technical Report NESDIS 78, U.S. Department of
Commerce, Washington, D.C.
cy of
tiple Twomey, S., 1977: The influence of pollution on the shortwave
albedo of clouds. J. Atmos. Sci., 34, 1149-1152.
in, R.
cloud
udget Acknowledgments
The authors are grateful to Prof. T. Nakajima of
CCSR/University of Tokyo for valuable comments and to Dr. S.
Katagiri of RIHN for technical support of satellite data
processing.
on of
imate
idge,
“loud
lieved
i.,59,
HRR
Woo,
sion
GP
ugh,
ysics
r the
ering
2].
ative
ing a
777
