A development of slant path rain attenuation statistic using synthetic storm technique
Frequencies above 10 Ghz has become primary interest nowadays in satellite communication. However, it can be easily distracted due to the rain. Basically the aim for this project is to develop a slant path rain attenuation using Synthetic storm Technique. In this project, a few important parameters...
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2009
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my-utm-ep.123572018-06-25T03:20:22Z A development of slant path rain attenuation statistic using synthetic storm technique 2009 Hassan, Hasrina TK Electrical engineering. Electronics Nuclear engineering Frequencies above 10 Ghz has become primary interest nowadays in satellite communication. However, it can be easily distracted due to the rain. Basically the aim for this project is to develop a slant path rain attenuation using Synthetic storm Technique. In this project, a few important parameters which is rain rate series per one minute at selected location is being converted to rain space series at horizontal or slant path using storm translation speed or commercial name “synthetic storm technique”. The prediction was being tested at 11.6GHz at MEASAT-3 satellite with two years rain rate data. Study has been carried out to see how SST prediction model works and its reliable and it physical mathematical approach for developing slant path. This mathematical approach is actually to simply match the long term statistic of rain for example yearly cumulative distribution. An accurate elevation calculation that caused by the environment for the high frequency is needed in order to fully utilized the coverage during rain. The methodologies that have been used in this study were the comprehensive mathematical modeling which is Synthetic storm technique, UTM Semarak is selected location involved in the study also some reference document such as ITU-R document for comparison and referral purposed. This study has succeed to obtain a similar result by comparing to result obtained from previous study done in another country. The findings will help to make the affects of rain become less representatives, in other word, rain will be excluded partially or totally when small sample is available. 2009 Thesis http://eprints.utm.my/id/eprint/12357/ http://eprints.utm.my/id/eprint/12357/1/HasrinaHassanMFKE2009.pdf application/pdf en public masters Universiti Teknologi Malaysia, Faculty of Electrical Engineering Faculty of Electrical Engineering 1. Gérard Maral, Michel Bousquet “Satellite Communication System”, Wiley, John & Sons, Incorporated, May 2005. 2. Profesor Tharek, “Satellite Communication Class Notes”, 2007 3. Emilio Matriciani, “Physical-mathematical model of the dynamics of rain attenuation based on rain rate time series and a two layer vertical structure of precipitation”. Radio Science ,March -Apr 1996 .Vol.31(2): 281-295. 4. Hassan N. Kheirallah, Benjamin Segal and Roderic L. Olsen, “Application of synthetic Storm Data to evaluate simpler techniques for predicting rain attenuation statistic ”. ANN.TI ~COMMUNIC, 1980, pp.11-12. 5. Sotirus A. Kanellopoulos, Athanasios D. Panagopoulos and Emilio Matriciani, “Annual and Diurnal Slant Path Rain Attenuation Statistic in Athens Obtained with the Synthetic Storm Technique”. IEEE Transaction On Antennas and Propogation ,Vol 54 (8), August 2006. 6. Emilio Matriciani, “Global Formulation of Synthetic Storm Technique to Calculate Rain Attenuation Only from Rain Rate Probability Distribution”. IEEE Communications Survey & Tutorials, First Quarter., 2005.Vol.7(1): 1- 31. 7. Emilio matriciani, “Service Oriented Statistic of Interruption Time Due to Rainfall In Earth Space Communication System” . IEEE Transaction On Antennas and Propogation , Vol. 52, No. 8, August 2004. 8. P.F Hartigan and A.P Gallois, “ The Use of Satellite Imagery For Forecasting Rain Attenuatin”, in Proc. 8th ICAP, Edinburgh, U.K., Mar. –Apr. 1993. 9. Athanasios D. Panagoupoulos, pantelis-Daniel M. Arapoglou and Payotis G. Cottis, “ Satellite Communications At Ku,Ka, and V Bands: Propogation Impairments and Mitigation Techniques”, IEEE Communication Surveys ,Vol 6, 2004. 10. ITU-R Recommendation P.618-9, “Propagation data and prediction methods Required for the design of Earth space telecommunication system”, ITU, Geneva, 2007 11. http://www.measat.com/support_customer_azimuth.html |
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Universiti Teknologi Malaysia |
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UTM Institutional Repository |
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TK Electrical engineering Electronics Nuclear engineering |
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TK Electrical engineering Electronics Nuclear engineering Hassan, Hasrina A development of slant path rain attenuation statistic using synthetic storm technique |
description |
Frequencies above 10 Ghz has become primary interest nowadays in satellite communication. However, it can be easily distracted due to the rain. Basically the aim for this project is to develop a slant path rain attenuation using Synthetic storm Technique. In this project, a few important parameters which is rain rate series per one minute at selected location is being converted to rain space series at horizontal or slant path using storm translation speed or commercial name “synthetic storm technique”. The prediction was being tested at 11.6GHz at MEASAT-3 satellite with two years rain rate data. Study has been carried out to see how SST prediction model works and its reliable and it physical mathematical approach for developing slant path. This mathematical approach is actually to simply match the long term statistic of rain for example yearly cumulative distribution. An accurate elevation calculation that caused by the environment for the high frequency is needed in order to fully utilized the coverage during rain. The methodologies that have been used in this study were the comprehensive mathematical modeling which is Synthetic storm technique, UTM Semarak is selected location involved in the study also some reference document such as ITU-R document for comparison and referral purposed. This study has succeed to obtain a similar result by comparing to result obtained from previous study done in another country. The findings will help to make the affects of rain become less representatives, in other word, rain will be excluded partially or totally when small sample is available. |
format |
Thesis |
qualification_level |
Master's degree |
author |
Hassan, Hasrina |
author_facet |
Hassan, Hasrina |
author_sort |
Hassan, Hasrina |
title |
A development of slant path rain attenuation statistic using synthetic storm technique |
title_short |
A development of slant path rain attenuation statistic using synthetic storm technique |
title_full |
A development of slant path rain attenuation statistic using synthetic storm technique |
title_fullStr |
A development of slant path rain attenuation statistic using synthetic storm technique |
title_full_unstemmed |
A development of slant path rain attenuation statistic using synthetic storm technique |
title_sort |
development of slant path rain attenuation statistic using synthetic storm technique |
granting_institution |
Universiti Teknologi Malaysia, Faculty of Electrical Engineering |
granting_department |
Faculty of Electrical Engineering |
publishDate |
2009 |
url |
http://eprints.utm.my/id/eprint/12357/1/HasrinaHassanMFKE2009.pdf |
_version_ |
1747814928054484992 |