ABSTRACT
Rainfall is a vital factor that must be considered in the design of telecommunication systems. The challenges posed by rainfall at frequencies above 10 GHz on microwave terrestrial and space communication systems, especially in tropical and equatorial zones, is a major problem for the telecommunication engineer. In recent times, it has been observed that rain that fall within a very short period has more effect on radio signals than rain that occur at a longer period of time. Rain events can last for an extended period of time, but the most significant attenuation due to rain occurs during relatively short periods of very intense rainfall. In this work, 2 –year data collected using vertically-pointing Micro Rain Radar were used to determine and compare the level of attenuation and the result shows that the level of attenuation at lower integration times is more than the one that occur at higher integration times.
References
- Ajayi (ed.), G. O. Handbook on Radio propagation Related to Satellite Communications in Tropical and Subtropical Countries, Trieste, Italy, URSI Standing Committee on Developing Countries, International Center for Theoretical Physics, (1996)
- Ajayi, G. O. and E. Ofoche Some Tropical Rainfall Rate Characteristics at Ile-Ife for Microwave and Millimetre Wave Applications, Climate Appl. Meteor, 23, 4, April, (1983) 562-567
- Animesh, A. and Kanstar, C. Ku Band Rain Attenuation Observations on an Earth-Space path in Indian Region. Online Journal of Space Science 62 (2005) 24-27
- Charles, M. Rain Attenuation model Comparison and Validation. Online Journal of Space Communication. 22 (2002) 1-8
- Chen, K. and C. Chu A Propagation Study of the 28 GHz LMDS System Performance with M-QAM Modulations Under Rain Fading, Progress in Electromagnetic Research 68 (2007) 35-51
- Crane, R.K. Propagation Handbook for Wireless Communication System Design (Oxford University Press). (2003) 36-59
- Crane, R.K. A two-Component rain model for the prediction of attenuation statistics. Radio Science Journal 17 (1982) 153-159
- Da Silva, L.M. and Marlene, S.P. Unified Method for the Prediction of Rain Attenuation in Satellite and Terrestrial Links. Journal of Microwaves, Optoelectrics and Electromagnetic Application, 11, No. 1, DOI. 10. 1074/S2179, (2012) 899-901
- Gerhard, P, Bernd, F. and Tage, A. Rain Observation with a vertically looking Micro Rain Radar (MRR). Boreal Environmental Research. 7 (2002) 353-362
- Harden, B.N., Norbury J.R. and W.J.K. White Measurements of rainfall for studies of millimeter radio attenuation IEE microwaves opt. Acous. 1, no. 6, (1977) 197-202
- IEEE 802.16 IEEE Standard for Local and Metropolitan Area Networks, Part 16. Air Interface for Fixed Broadband Wireless Access Systems (2004).
- ITU-R P.838-3 Specific attenuation model for rain for use in prediction methods, Recommendation P, ITU-R Ser., International Telecommunication Union, Geneva, Switzerland (2005).
- ITU-R Document 3J/19-E, Conversion of Rainfall Rate Distributions to Equivalent One Minute Statistics, Geneva, International Telecommunications Union, Radio communications Sector, Working Party 3J, May (2001).
- ITU-R Recommendation Characteristics of Precipitation for Propagation Modelling, Geneva, International Telecommunications Union, Radiocommunications Sector, pp. 837-1 (1994)
- Laws, J.O., and Parsons, D.A. The Relation of Raindrop Size to Intensity. Amer. Geophys. Union, Vol. 24, p 432-460 (1943)
- Maitra, A. and Chakravarty, B. Path Attenuation of signals in Indian Region. Boreal Journal of Environmental Research. 7 (2002) 309-312
- Mandeep, J.S. and Allnut, J.E. Comparison of rainfall properties on VHF & UHF bands in Krojak 2. Progress in Electromagnetic Research 76 (2007) 65-74
- Mandeep Singh Jit Singh, Kenji Tanaka and Mitsuyoshi lida Conversion of 60-, 30-, 10- and 5-Minute Rain Rates to 1-Minute Rates in Tropical Rain Rate Measurement, ETRI Journal, 29 pp. 542-544 (2007)
- Matricciani, E. and C. Riva Evaluation of the Feasibility of Satellite Systems Design in the 10-100 GHz Frequency Range,” J. Satell. Commun, 16 (1998) 237-247
- Moupfouma, F. Improvement of a Rain Attenuation Prediction Method for Terrestrial Microwave Links, IEEE Trans on Antenna and Propagation, AP-32, Pt. H, No. 12, (1984) 1368-1372
- Ojo, J. S., M. O. Ajewole, and S. K. Sarkar Rain rate and rain attenuation prediction for satellite communication in Ku and Ka bands over Nigeria, Progress In Electromagnetics Research B, 5, (2008) 207–223,
- Ojo, J, S., Sarkar S. K., and Adediji A. T Intersystem interference on horizontally polarized radio signals in tropical climate, Indian J. Radio & Space Phys 37, (2008) 408-413
- Ojo, J. S. and M. O. Ajewole Dimensional statistics of rainfall signature and fade duration for microwave propagation in Nigeria, XXXTH URSI Genaral Assembly and Scientific Symposium, Istanbul, August (2011) 13–20
- Olsen, R. L. Rogers D. V. and Hodge D. B., The a Rb relation in calculation of rain attenuation, IEEE Transactions on Antennas and Propagation, 26, no. 2, pp. 318–329, 1978
- Oort, A. H and Rasmussen, E. M. Atmospheric Circulation Statistics, NOAA Professional Paper, No. 5, U.S. Dept. Commerce (1971).
- Oyedum, O. D. Effects of Topographic conditions on microwave propagation in Nigeria. Nigerian Journal of Space Research. 3; (2007) 92-97
- Robert A. and Nelson How Rains Affects the Communications Link. Via Satellite, 97, (2000) 1-4
- Seybold, J. S. Introduction to RF propagation. ISBN: 0471655961, New York: John Wiley and Sons Ltd., (2005) 135-162
- Silva Mello, L.A.R.; Pontes, M.S.; Souza, R.S.L. Rain attenuation prediction for the design of site-diversity LEO/SMS Gateway configuration in the tropics, Proceedings Microwave and Optoelectronics Conference, ‘Linking to the Next Century’. 1997 SBMO/IEEE MTT – S International, Volume: 2, 11-14, Aug. 1997, 729 – 733
- Semire, F.A. and Raji T.I Characteristics of measured rainfall rate at Ogbomoso, Nigeria for microwave applications. Journal of Telecommunications and information Technology, (2011) 86-88
- Walter, A.S. Gibbins, C.J. and Tetta, T. C. A comparison of Measured Rain Attenuation, Rain Rates and Drop Size Distribution. Unpublished findings in attenuation studies, India. (2002).
- Walter, A.S. and Gibbins, C. J. A comparison of rain Attenuation and Drop Size Distribution measured in Chilboton and Singapore. Radio Science Journal. 37 (2002) 123-127
- Watson, P. A., M. B. Potter, A. Sathiaseelan, V. and J. Leitao Development of a Climatic Map of Rainfall Attenuation for Europe, Final Report of ESAIESTEC Contract No. 4162/79/NL/DG/(SC), Report 327, June. 134 (1982)
- Zhang, W., and Moayeri, N. Power-Law parameters of Rain Specific Attenuation, IEEE, 802. 16 WG.1-8. (1999)
Download all article in PDF
ADVERTISEMENT
