• Buné, P. A. M., M. H. A. J. Herben, and J. Dijk (1988), Rain rate profiles obtained from the dynamic behavior of the attenuation of microwave radio signals, Radio Sci., 23(1), 1322.
  • Clérivet, P. (2001), Fade slope modeling for the satellite communication in the Ka- and V-band, graduation report, INSA Rennes/ONERA Toulouse, France.
  • COST255 (2002), Radio wave propagation modelling for SatCom services at Ku-band and above, final report of COST Action 255, chap. 5.3, SP-1252, Eur. Space Agency, Paris.
  • Feil, J., L. J. Ippolito Jr., H. Helmken, C. E. Mayer, S. Horan, and R. E. Henning (1997), Fade slope analysis for Alaska, Florida, and New Mexico ACTS propagation data at 20 and 27.5 GHz, Proc. IEEE, 85(6), 926935.
  • Lin, S. H., H. J. Bergmann, and M. V. Pursley (1980), Rain attenuation on Earth-satellite paths—Summary of 10-year experiments and studies, Bell Syst. Tech. J., 59(2), 183228.
  • Maseng, T., and P. M. Bakken (1981), A stochastic dynamic model of rain attenuation, IEEE Trans. Commun., 29(5), 660669.
  • Matricciani, E. (1982), Effects of filtering on rate of change of rain-induced attenuation, Electron. Lett., 18(11), 477478.
  • Matricciani, E. (1994), Physical-mathematical model of dynamics of rain attenuation with application to power spectrum, Electron. Lett., 30(6), 522524.
  • Matricciani, E., M. Mauri, and A. Paraboni (1986), Joint analysis of duration and rate of change of rain attenuation at 11.6 GHz, Electron. Lett., 22(17), 914915.
  • Schnell, M., and U.-C. Fiebig (1997), Fade slope statistics of 40 GHz beacon signals, Electron. Lett., 33(21), 18191821.
  • Stutzman, W. L., T. Pratt, A. Safaai-Jazi, P. W. Remaklus, J. Laster, B. Nelson, and H. Ajaz (1995), Results from the Virginia Tech Propagation Experiment using the Olympus satellite 12, 20 and 30 GHz beacons, IEEE Trans. Antennas Propag., 43(1), 5462.
  • Sweeney, D. G., and C. W. Bostian (1992), The dynamics of rain-induced fades, IEEE Trans. Antennas Propag., 40(3), 275278.
  • van de Kamp, M. M. J. L. (1999), Climatic radiowave propagation models for the design of satellite communication systems, Ph.D. thesis, Eindhoven Univ. of Technol., Eindhoven, Netherlands.