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References

  • Cohen, A. C. (1950), Estimating the mean and variance of singly truncated normal frequency distributions from the first three sample moments, Ann. Inst. Stat. Math., 3, 3744.
  • Crane, R. K., and H.-C. Shieh (1989), A two-component rain model for the prediction of site diversity performance, Radio Sci., 24(5), 641665.
  • Drezner, Z., and G. O. Wesolowsky (1990), On the computation of the bivariate normal integral, J. Stat. Comput. Simul., 35, 101107.
  • Dutton, E. J., and H. T. Dougherty (1979), Year-to-year variability of rainfall for microwave applications in the U.S.A. IEEE Trans. Commun., 27, 829832.
  • Dutton, E. J., and H. T. Dougherty (1984), A second modelling approach to year-to-year rainfall variability in the U.S. A for microwave/millimetre wave applications, IEEE Trans. Commun., 32, 11451148.
  • European Cooperation in the Field of Science and Technology (COST) (1991), Influence of the atmosphere on interference between radio communications systems at frequencies above 1 GHz, Action 210, Eur. Comm., Luxembourg.
  • European Cooperation in the Field of Science and Technology (COST) (1996), Radiowave propagation effects on next generation fixed services terrestrial telecommunications systems, Action 235, Eur. Comm., Luxembourg. (Available at http://europa.eu.int.).
  • Galante, F. M. (1975), Statistical evaluation of rain fades and fade durations at 11 GHz in the European region [satellite links], in International Conference on Satellite Communication Systems Technology, IEE Conf. Publ., 126, 302307.
  • Goddard, J. W. F., and M. Thurai (1996), Modelling of attenuation due to rain on terrestrial paths using Chilbolton radar data, NRPP Res. Note 159, Rutherford Appleton Lab., Chilton, UK.
  • Goddard, J. W. F., and M. Thurai (1997), Radar-derived path reduction factors for terrestrial systems, in Tenth International Conference on Antennas and Propagation, IEE Conf. Publ., 436, xxxiii, 553, 396.
  • International Telecommunication Union (2001), Recommendation ITU-R P.530-10, Propagation data and prediction methods required for the design of terrestrial line-of-sight systems, P Series, Geneva, Switzerland.
  • International Telecommunication Union (2003a), Recommendation ITU-R P.837-4, Characteristics of precipitation for propagation modelling, P Series, Geneva, Switzerland.
  • International Telecommunication Union (2003b), Recommendation ITU-R P.838-2, Specific attenuation model for rain for use in prediction methods, P Series, Geneva, Switzerland.
  • International Telecommunication Union (2003c), Recommendation ITU-R P.1410-2, Propagation data and prediction methods required for the design of terrestrial broadband millimetric radio access systems operating in a frequency range of about 20–50 GHz, P Series, Geneva, Switzerland.
  • Ito, C., and Y. Hosoya (2002), The thunderstorm ratio as a regional climatic parameter: Its effects on different integration-time conversion, rain attenuation, site diversity and rain depolarization, paper presented at 27th URSI General Assembly, Int. Union of Radio Sci., Maastricht, Netherlands.
  • Kanellopoulos, J. D., and S. Ventouras (1993), Prediction of the outage performance of an unbalanced orbital diversity Earth-space system (log-normal case), Eur. Trans. Telecommun. Related Technol., 4, 415421.
  • Lin, S. H. (1973), Statistical behaviour of rain attenuation, Bell Syst. Tech. J., 52, 557581.
  • Little, R. J. A., and D. B. Rubin (1987), Statistical Analysis With Missing Data, John Wiley, Hoboken, N. J.
  • Ord, K. J., S. Arnold, A. O'Hagan, and J. Forster (2004), Kendall's Advanced Theory of Statistics, Hodder Arnold, London.
  • Owen, D. B. (1956), Tables for computing the bivariate normal probability, Ann. Math. Stat., 27, 10751090.
  • Paulson, K. S. (2002), Spatial-temporal statistics of rainrate random fields, Radio Sci., 37(5), 1088, doi:10.1029/2001RS002527.
  • Paulson, K. S. (2003), Prediction of diversity statistics on terrestrial microwave links, Radio Sci., 38(3), 1047, doi:10.1029/2001RS002547.
  • Paulson, K. S., W. J. Watson, and I. S. Usman (2006), Diversity improvement estimation from rain radar databases using maximum likelihood estimation, IEE Trans. Antennas Propag., 54(1).
  • Rice, P. L., and N. R. Holmberg (1973), Cumulative time statistics of surface point rainfall rates, IEEE Trans. Commun., 21, 11311136.
  • Seidel, S. Y. (1996), Propagation and radio planning at 28 Ghz for LMDS, paper presented at LMDS Tutorial, Understanding LMDS Technologies, Washington, D. C., 15 July .
  • Usman, I. S. (2005), Development of point to multipoint models for availability and fade mitigation in the millimetre wave frequency range, Ph.D. thesis, Univ. of Bath, Bath, U. K.