• Alasseur, C., A. Núñez, F. P. Fontán, L. Husson, U.-C. Fiebig, and P. Mariño (2005), Two approaches for effective modelling of rain-rate time-series for radiocommunication system simulations, Space Commun., 20, 6983.
  • Bråten, L. E., and T. Tjelta (2002), Semi-Markov multistate modeling of the land mobile propagation channel for geostationary satellites, IEEE Trans. Antennas Propag., 50(12), 17951802.
  • Capsoni, C., F. Fedi, C. Magistroni, A. Paraboni, and A. Pawlina (1987), Data and theory for a new model of the horizontal structure of rain cells for propagation applications, Radio Sci., 22(8), 395404.
  • Féral, L., H. Sauvageot, L. Castanet, and J. Lemorton (2003), HYCELL: A new hybrid model of the rain horizontal distribution for propagation studies: 1. Modeling of the rain cell, Radio Sci., 38(3), 1056, doi:10.1029/2002RS002802.
  • Fiser, O. (2002), On the tipping-bucket measurement applied to microwave propagation (theory and actual results), paper presented at Commission F Open Symposium on Propagation and Remote Sensing, Int. Union for Radio Sci., Garmisch-Partenkirchen, Germany, Feb.
  • Goldhirsh, J. (2000), Two-dimension visualization of rain cell structures, Radio Sci., 35(3), 713730.
  • Matricciani, E. (1996), Physical-mathematical model of the dynamics of rain attenuation based on rain rate time series and a two-layer vertical structure of precipitation, Radio Sci., 31(2), 281295.
  • Paulson, K. S. (2002), Spatial-temporal statistics of rainrate random fields, Radio Sci., 37(5), 1088, doi:10.1029/2001RS002527.