References and related papers

References and related information sources:

Adler, R.F. , and R.A. Mack, 1986: Thunderstorm cloud top dynamics as inferred from satellite observations and cloud top parcel model. J. Atmos. Sci., 43, 1945-1960.

Asano,S. and M. Sato, 1980: Light scattering by randomly oriented spheroidal particles. Appl.Opt., 19, 962-974.

Arking, A. and J.D. Childs, 1985: Retrieval of cloud cover parameters from multispectral satellite images. J. Climate Appl. Meteor., 24, 322-333.

Doswell, C.A. III, R.M. Rabin, M. Setvák, and V. Levizzani, 1996: Multispectral GOES-8 and NOAA/AVHRR obsevations of Great Plains storms. Preprints, 15th Conf. on Wea. Analysis and Forecasting, Norfolk, VA, Amer.Meteor.Soc., 28-31.

Foster, T., W. P. Arnott, J. Hallett, R. Pueschel, 1995: Measurements of ice particles in tropical cirrus anvils: Importance in radiation balance. Preprints. Conf. on Cloud Physics. January 15-20, Dallas, TX, AMS, 419-424.

Fujita T.T., 1982: Principle of stereographic height computations and their applications to stratospheric cirrus over severe thunderstorms. J. Meteor. Soc. of Japan, 60, 355-368.

Hunt, G.E., 1973: Radiative properties of terrestrial clouds at visible and infra-red thermal window wavelengths. Quart. J. Roy. Meteor. Soc., 99, 346-369.

Kleespies, T.J., 1995. The retrieval of marine stratiform cloud properties from multiple observations in the 3.9 µm window under conditions of varying solar illumination. J. Appl. Meteorol., 34, 1512-1524.

Levizzani, V., M. Setvák, J. Kracmar, F. Porcu and F. Prodi, 1992: Multisensor Remote Sensing Analysis of Deep Convective Storms' Structure over Continental Europe and Mediterranean. Proceedings, 11th Int. Conf. on Clouds and Precipitation, IAMAP - Montreal, 1075 - 1078.

Levizzani, V., and M. Setvák, 1996: Multispectral, high-resolution satellite observations of plumes on top of convective storms. J. Atmos. Sci., 53, 361-369.

Liljas, E., 1984: Processed satellite imageries for operational forecasting. Swedish Meteorological and Hydrological Institute, Norrköping, Sweden, 43 pp.

Liljas, E., 1987: Multispectral methods for cloud classification. Proc. Satellite and Radar Imagery Interpretation Workshop, Reading, England, European Organization for the Exploitation of Meteorological Satellites, 475-493.

Liou, K.-N., 1972a: Electromagnetic scattering by arbitrarily oriented ice cylinders. Appl.Opt., 1, 667-674.

______, 1972b: Light scattering by ice clouds in the visible and infrared: A theoretical study. J.Atmos. Sci., 29, 524-536.

Maddox, R. A., D. S. Zaras, P. L. MacKeen, J. J. Gourley, R. M. Rabin, and K. W. Howard, 1999: Echo height measurements with the WSR-88D: Use of data from single versus two radars. Weather and Forecasting, 16, 455-460.

McCann, D.W., 1983: The enhanced-V, a satellite observable severe storm signature. Mon. Wea. Rew., 111, 887-894.

Menzel, W.P. and J.F.W. Purdom, 1994: Introducing GOES-I: The first of new generation of Geostationary Operational Environmental Satellites. Bull. Amer. Meteor. Soc., 75, 757-781.

Ou, S.C., K.-N. Liou, W.M. Gooch and Y.Takano, 1993: Remote sensing of cirrus cloud parameters using advanced very-high-resolution radiometer 3.7 and 10.9 µm channels. Appl.Opt., 32, 2171-2180.

Rao, N.X., S.C. Ou and K.N. Liou, 1995: Removal of the solar component in AVHRR 3.7 µm radiances for the retrieval of cirrus cloud parameters. J. Appl. Meteorol., 34, 482-499.

Rasmussen, E.N., J.M. Straka, R. Davies-Jones, C.A. Doswell III, F.H. Carr, M.D. Eilts and D.R. MacGorman, 1994: Verification of the Origins of Rotation in Tornadoes EXperiment (VORTEX). Bull. Amer. Meteor. Soc., 75, 995-1006.

Scorer, R.S., 1986: Cloud Investigation by Satellite. Ellis Horwood Ltd., 314 pp.

Setvák, M., 1989: Convective storms - the AVHRR channel 3 cloud top reflectivity as a consequence of internal processes. Proceedings, 5th WMO Conf. on Weather Modification and Applied Cloud Physics, Beijing, WMO TD -No.269, 109-112.

Setvák, M., and C.A. Doswell, 1991: The AVHRR channel 3 cloud top reflectivity of convective storms. Mon. Wea. Rev., 119, 841-847.

Setvák M., R.M. Rabin, V. Levizzani and C.A. Doswell, 1996: Relations between increased 3.7/3.9 mm reflectivity above U.S. Great Plains thunderstorms from NOAA/AVHRR and GOES-8 and internal storm structure from NEXRAD radar. Proc. 1996 Meteorological Satellite Data Users' Conference, Vienna, Austria, EUM P 19, ISSN 1011-3932, 143-150.

Stephens, G.L., 1980: Radiative properties of cirrus clouds in the infrared region. J. Atmos. Sci., 37, 435-446.

Stone, R.S., G.L. Stephens, C.M.R. Platt, and S. Banks, 1990: The remote sensing of thin cirrus cloud using satellites, lidar and radiative transfer theory. J. Appl. Meteorol., 29, 353-366.

Zaras, D.S, R.M. Rabin, R.A. Maddox, P.J. MacKeen, 1998: Integration of GOES-8/9 and multiple WSR-88D for monitoring long-lived severe convective storms. Second Symposium on Integrated Observing Systems, 11-16 January, 1998

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