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http://dx.doi.org/10.7236/IJIBC.2020.12.1.116

Propagation Path-Loss Model for TV White Space of Korea  

Lee, Seungyoun (Department of Electrical Information Control, Dong Seoul University)
Lee, JungHoon (Department of Electrical Information Control, Dong Seoul University)
Publication Information
International Journal of Internet, Broadcasting and Communication / v.12, no.1, 2020 , pp. 116-121 More about this Journal
Abstract
With the recent development of the 4th Industrial Revolution, efforts have been made to carry out communication in a smart factory, farm, etc. at low cost and reliably. Methods for utilizing empty frequencies using TVWS(TV White Space) have been studied which can be used locally within 30 km. However, there have not been many studies on Path-Loss model considering Korean environment. In this paper, the Path-Loss model is divided into LOS (Line Of Sight) and NLOS (None LOS). In case of LOS model, we checked the difference between Free space model, Friis model, 2-ray model and Hata model with measured data. In the case of NLOS model, we checked the difference between Lee Model, ITU-R526-3 Model with measured data. In order to overcome the difference in Korean environment, we derived a model that can be applied in LOS and NLOS and prove its usefulness through performance evaluation through simulation.
Keywords
TVWS; White Space; Propagation; Path-Loss Model;
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1 Ministry of Science and Technology Information and Communication Notice No. 2017-10, 2017. DOI: http://www.law.go.kr/admRulLsInfoP.do?admRulSeq=2100000095931
2 Purnima K. Sharma, R.K.Singh, Comparative Analysis of Propagation Path loss Models with Field Measured Data, International Journal of Engineering Science and Technology, Vol. 2(6), 2008-2013, 2010.
3 Dushantha Nalin K. Jayakody, John Thompson, Symeon Chatzinotas, Salman Durrani, Wireless Information and Power Transfer: A New Paradigm for Green Communications, Springer, pp. 193, 2018.
4 Theodore S. Rappaport, Wireless Communications - Principles & Practice, Prentice Hall, pp. 69-188, 1996.
5 J.D. Parsons, The mobile Radio Propagation Channel, Pentech Press, pp. 16-19, 87-88, 1992.
6 International Telecommunication Union, "ITU-R Recommendations", PN.526-3, "Propagation By Diffraction". 1994PN series Volume, ITU propagation in non-ionized media.
7 Seungyoun Lee, A Study on Channel Modeling for Digital Home Appliance Communication, Ph.D. Thisis Sungkyunkwan University, pp. 68, 2006.
8 Lee, W.C.Y., Mobile Communications Engineering, Mcgraw hill publications, New York, 1985.
9 William C.Y. Lee, Mobile Communications Design Fundamentals, A wiley-interscience Publication, pp. 80-81,1993
10 Korea Broadcasting System, Ministry of Information and Communication, "A Study on the Financial Support For Digital Terrestrial TV Broadcasting Testbed Implementation", Ministry of Science and Technology Information and Communication , 2000.