Refrences

[1] R. K. Crane, “Propagation phenomena affecting satellite communication systems operating in the centimeter and millimeter wavelength bands,” Proc. IEEE, vol. 59, no. 2, pp. 173-188, Feb. 1971.

[2] ITU-R, “Attenuation by Atmospheric Gases,” P Series: Radiowave Propagation, Rec. P. 676-9, Geneva, 2012.

[3] ITU-R, “Attenuation due to Clouds and Fog,” P Series: Radiowave Propagation, Rec. P.840-5, Geneva, 2012

[4] J. D. Laster and W. L. Stutzman, “Frequency scaling of rain attenuation for satellite communication links,” IEEE Trans. Antennas Propag., vol 43, no. 11, pp. 1207-1216, Nov. 1995.

[5] P. G. del Pino, J. M. Riera, and A. Benarroch, “Measurements of Tropospheric Scintillation on Millimeter-Wave Satellite Link”, Electronic Letters, vol. 43, no. 22, Oct. 2007.

[6] ITU-R, “Specific Attenuation Model for Rain for Use in Prediction Methods,” Rec. P.838-3, Geneva, 2005.

[7] ITU-R, “Propagation Data and Prediction Methods required for the Design of Earth-Space Telecommunication Systems,” P Series: Radiowave Propagation, Rec. P.618-10, Geneva, 2009.

[8] M. Lucente et al., “Experimental Missions in W-Band: A Small LEO Satellite Approach,” IEEE Systems Journal, vol. 2, no. 1, pp. 90-103, March, 2008.

[9] M. Lucente et al., “Analysis and Design of a Point-to-Point Radio-Link at W Band for Future Satellite Telecommunication Experiments ,” IEEE Systems Journal, vol. 2, no. 1, pp. 1-10, January, 2011.

[10] Hittite Microwave Corporation “GaAs HEMT LOW NOISE AMPLIFIER 71 - 86 GHz,” v04.0612,2 Elizabeth Drive, Chelmsford, MA 01824, January, 2011.

[11] mWAVE Industries, LLC , “71.0-86.0 GHz High Performance Parabolic Antennas,” Windham, ME 04062 USA, March, 2009.

[12] Larry Sadwick et al., “20.5: W-band SSVD High Power Amplifier and Electronic Power Conditioner, Modulator and Supply,” IEEE Systems Journal, vol. 978-1-4244-7099, pp. 503-504, January, 2010.



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