• Crane, R. K., A global model for rain attenuation prediction, paper presented at EastCon, Inst. of Electr. and Electr. Eng., Arlington, Va., 1978.
  • Crane, R. K., Prediction of attenuation by rain, IEEE Trans. Commun., 28, 17171733, 1980.
  • Ha, T. T., Digital Satellite Communications, 573 pp., Macmillan, Old Tappan, N. J., 1991.
  • International Radio Consultative Committee (CCIR), Propagation data and prediction methods required for Earth-space telecommunications, Rep. 564-3, Int. Telecommun. Union, Geneva, 1990.
  • International Radio Consultative Committee (CCIR), Revised rain climatic zones, annex 2, Geneva, 1997.
  • Jacobs, D. A. H., The State of the Art in Numerical Analysis, Academic, San Diego, Calif., 1977.
  • Kanellopoulos, J. D., and S. G. Koukoulas, Prediction of triple-site diversity performance in Earth-space communication, J. Electromagn. Waves Appl., 4(4), 341358, 1990.
  • Kanellopoulos, J. D., and S. N. Livieratos, A modified analysis for the prediction of multiple-site diversity performance in Earth-space communication including rain height effects, J. Electromagn. Waves Appl., 11, 485513, 1997.
  • Kanellopoulos, J. D., and D. N. Margetis, A predictive analysis of differential attenuation on adjacent satellite paths including rain height effects, Eur. Trans. Telecommun., 8(2), 141148, 1997.
  • Kanellopoulos, J. D., and S. Ventouras, Analysis of the interference due to differential rain attenuation induced by an adjacent path on a dual site diversity Earth-space system, Radio Sci., 31(6), 14351448, 1996.
  • Kanellopoulos, J. D., S. G. Koukoulas, N. J. Kolliopoulos, C. N. Capsalis, and S. Ventouras, Rain attenuation problems affecting the performance of microwave communication systems, Ann. Telecommun., 45(7–8), 437451, 1990.
  • Kanellopoulos, J. D., S. Ventouras, and C. N. Vazouras, A revised model for the prediction of differential rain attenuation on adjacent Earth-space propagation paths, Radio Sci., 28(6), 10711086, 1993.
  • Kanellopoulos, J. D., A. D. Panagopoulos, and S. N. Livieratos, A comparison of copolar and cochannel satellite interference prediction models with experimental results at 11.6 and 20GHz, Int. J. Satell. Commun., 18, 107120, 2000.
  • Lin, S. H., A method for calculating rain attenuation distribution on microwave paths, Bell Syst. Tech. J., 54(6), 10511086, 1975.
  • Matricciani, E., Copolar and cochannel interference during rain at 11.6 GHz estimated from radar measurements, Int. J. Satell. Commun., 15, 6571, 1997.
  • Matricciani, E., and M. Mauri, Cochannel interference in satellite communication systems derived from rain attenuation measurements at 20GHz, Int. J. Satell. Commun., 14(71–76), 1996.
  • Papoulis, A., Probability, Random Variables and Stochastic Processes. McGraw-Hill, New York, 1991.
  • Rogers, R. R., R. L. Olsen, J. L. Strickland, and G. M. Coulson, Statistics of differential rain attenuation on adjacent Earth-space propagation paths, Ann. Telecommun., 37, 445452, 1982.
  • Stutzman, W. L., and W. K. Dishman, A simple model for the estimation of rain-induced attenuation along Earth-space paths at millimeter wavelengths, Radio Sci., 17(6), 14651476, 1982.