Advertisement

Keywords

Total Electronic Content Radio Wave Elevation Angle Rain Rate Rainfall Rate 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Boithias L (1987) ) Radiowave Propagation, Mc Graw-Hill, New-YorkGoogle Scholar
  2. COST 255 (1999) Radiowave propagation modelling for Satcom services at Ku-band and above. COST255 Final Wokshop, Bech, LuxembourgGoogle Scholar
  3. Fiaco M, Parks H, Radi H, Saunders SR (1998) Indoor Propagation factors at 17 and 60 GHz. Final report by the Centre for Communication Systems Research on behalf of the Radiocommunications AgencyGoogle Scholar
  4. Foulonneau B, Glangetas E, Bic JC (2000) Characteristics and reflection scattering profile of building materials in the 60 GHz band for indoor propagation prediction tools. AP2000, DavosGoogle Scholar
  5. Gibbins CJ (1986) Improved algorithms for the determination of specific attenuation at sea level by dry air and water vapour in the range 1–350 GHz. Radio Science 216: 945–954Google Scholar
  6. Grindrop EA, Hammoudeh A (1997) Performance characterisation of millimetre wave mobile radio systems in forests. 10th ICAP pp 2.391–2.246Google Scholar
  7. ITU-R P.618 Propagation data and prediction methods required for the design of Earthspace telecommunication systemsGoogle Scholar
  8. ITU-R P.676 Attenuation by atmospheric gasesGoogle Scholar
  9. ITU-R P.833 Attenuation in vegetationGoogle Scholar
  10. ITU-R P.834 Effects of tropospheric refraction on radiowave propagationGoogle Scholar
  11. ITU-R P.837 Characteristics of precipitation for propagation modellingGoogle Scholar
  12. ITU-R P.839 Rain height model for prediction methodsGoogle Scholar
  13. Lavergnat J, Sylvain M (1997) Propagation des ondes radioélectriques. Introduction. Masson, ParisGoogle Scholar
  14. Liebe HJ (1983) Modeling attenuation and phase of radio waves in air at frequencies below 1000 GHz. Radio Science 16:183–1199Google Scholar
  15. Liebe HJ (1985) An updated model for millimetre wave propagation in moist air. Radio Science 205: 1069–1089Google Scholar
  16. Liebe HJ (1989) MPM-An atmospheric millimetre-wave propagation model. Int. Journal of infrared and millimetre waves, 10: 631–650CrossRefGoogle Scholar
  17. Liebe HJ, Hufford GA, Cotton MG (1993) Propagation modelling of moist air and suspended water/ice particles at frequencies below 1000 GHz. AGARD 52nd Specialists meeting of the EM wave propagation panel, Palma de MaiorcaGoogle Scholar
  18. RACE-MBS (1999) Final report on propagation aspects. R067/IST/2.2.5/DS/P/070.b1Google Scholar
  19. Salonen E et al. (1990) Study of propagation phenomena for low availabilities. ESA/ESTEC Contract 8025/88/NL/PR, Final reportGoogle Scholar
  20. Schwering FK, Violette EJ, Espeland RH (1988) Millimetre wave propagation in vegetation: experiments and theory. IEEE Trans. On Geoscience and remote sensing vol 263: 355–367CrossRefGoogle Scholar
  21. Seville (1997) Vegetation attenuation: modelling and measurements at millimetric frequencies, 10th ICAP: 2.5–2.8Google Scholar
  22. Sizun H (1979) Les perturbations ionosphériques itinérantes de moyenne échelle, étude et recherche de leur source. PhD Thesis, Université de RennesGoogle Scholar
  23. US WEST Advanced Technology Inc, HP Company; (1995) Final Report of the LMDS Phoenix Field Trial. Report T-09_02-004963-01.00Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 2005

Personalised recommendations