Geoscience Reference
In-Depth Information
Tsuda, T., Miyamoto, M. & Furumoto, J.-I. (2001). Estimation of a Humidity Profile Using
Turbulence Echo Characteristics,
Journal of Atmospheric and Oceanic Technology
,
Vol.18,
No.7,
pp.1214-1222,
doi:10.1175/1520-
0426(2001)018<1214:EOAHPU>2.0.CO;2.
Vaughn, C.R. (1985). Birds and Insects as Radar Targets: A Review,
Proceedings of the IEEE
,
Vol.73, No.2, pp. 205 -227, doi:10.1109/PROC.1985.13134.
Wallace, J.M. & Hobbs P.V. (2006).
Atmospheric Science: An Introductory Survey, 2
nd
Edition
,
pp.447-450, Academic Press, ISBN-10: 012732951X, San diego, California, USA.
Wada, E., Hashiguchi, H., Yamamoto, M.K., Teshiba, M. & Fukao, S. (2005). Simultaneous
Observations of Cirrus Clouds with a Millimeter-Wave Radar and the MU Radar,
Journal of Applied Meteorology
, Vol.44, No.3, pp.313-323, doi:10.1175/JAM2191.1.
Wandinger, U. (2005). Introduction to Lidar, In :
Lidar : Range-Resolved Optical Remote Sensing
of the Atmosphere
, C. Weitkamp, (Ed.), pp.1-18, Springer, ISBN-10: 0387400753, New
York, USA.
Wilson, R., Dalaudier, F. & Bertin, F. (2005). Estimation of the Turbulent Fraction in the Free
Atmosphere from MST Radar Measurements,
Journal of Atmospheric and Oceanic
Technology
, Vol.22, No.9, pp.1326-1339, doi:10.1175/JTECH1783.1.
Wilczak, J. M. & Coauthors (1995). Contamination of Wind Profiler Data by Migrating Birds:
Characteristics of Corrupted Data and Potential Solutions.
Journal of Atmospheric
and
Oceanic
Technology
,
Vol.12,
No.3,
pp.449-467,
doi:10.1175/1520-
0426(1995)012<0449:COWPDB>2.0.CO;2.
Woodman, R. (1997). Coherent Radar Imaging: Signal Processing and Statistical Properties,
Radio Science
, Vol.32, No.6, pp.2373-2391, doi:10.1029/97RS02017.
Yamamoto, M.K., Fujiwara M., Horinouchi, T., Hashiguchi, H. & Fukao S. (2003). Kelvin-
Helmholtz Instability around the Tropical Tropopause Observed with the
Equatorial Atmosphere Radar,
Geophysical Research Letters
, Vol.30, No.9,
Art.no.1476, doi:10.1029/2002GL016685.
Yamamoto, M.K. & Coauthors (2008). Observation of Particle Fall Velocity in Cirriform
Cloud by VHF and Millimeter-Wave Doppler radars,
Journal of Geophysical Research
,
Vol.113, Art.no.D12210, doi:10.1029/2007JD009125.
Yamamoto, M.K. & Coauthors (2009a). Vertical Air Motion in Midlevel Shallow-Layer
Clouds Observed by 47-MHz Wind Profiler and 532-nm Mie lidar: Initial Results,
Radio Science
, Vol.44, Art.no.RS4014, doi:10.1029/2008RS004017.
Yamamoto, M.K. & Coauthors (2009b). Wind Observation around the Tops of the
Midlatitude Cirrus by the MU radar and Raman/Mie lidar,
Earth Planets Space
,
Vol.61, e33-e36 (Available from
http://www.terrapub.co.jp/journals/EPS/abstract/6107/6107e033.html).
Yamamoto, M.K. & Coauthors (2011a). Doppler Velocity Measurement of Portable X-band
Weather Radar Equipped with Magnetron Transmitter and IF Digital Receiver,
IEICE
Transactions
on
Communications
,
Vol.E94-B,
No.6,
pp.1716-1724,
doi:10.1587/transcom.E94.B.1716.
Yamamoto, M.K. & Coauthors (2011b). Assessment of Radar Reflectivity and Doppler
Velocity Measured by Ka-band FMCW Doppler Weather Radar,
Journal of
Atmospheric Electricity
, Vol.31, No.2, pp.85-94.
Yu, T.-Y., Palmer, R.D. & Hysell, D.L. (2000). A Simulation Study of Coherent Radar
Imaging,
Radio Science
, Vol.35, No.5, pp.1129-1141, doi:10.1029/1999RS002236.
