Modelo Matemático Adaptado para el Cálculo de Pérdidas de Propagación en la Banda de 900 MHz para Microceldas en la Ciudad de Quito
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Aboul-Dahab M. A., Kamel H. M. (2010), Methodology for Calculating Path Loss Upper and Lower Bounds for WiMAX; IEEE.
Alsayyari A., Kostanic I., Otero C. E., (2015), An Empirical Path Loss Model for Wireless Sensor Network Deployment in a Concrete Surface Enviroment, IEEE.
Cox D. C., Murray R. R., and Norris A. W., (1984), 800 MHz attenuation measured in and around suburban houses, AT&T Bel1 Lab. Tech.J., vol. 63, pp. 922-951.
He R., Zhong Z., and Ai B., (2010), Path loss measurements and analysis for high-speed railway viaduct scene, in Proc. 4th Int. Wirel. Commun. Mob. Comput. Conf., France, pp. 265-270.
He R., Zhong Z., Ai B., Xiong L., and Ding J., (2011), The effect of Reference Distance on Path Loss Prediction Based on the Measurements in High-Speed Railway Viaduct Scenarios, IEEE, Chinacom.
Rappaport T. S., (2002), Wireless Communications: Principle and Practice, 2nd Edition ed., Upper Saddle River, NJ, USA: Prentice Hall.
Saunders S. R., Aragón-Zavala A.; (2007), Antennas and Propagation for Wireless Communication Sysrtems, 2nd Edition, John Wiley & Sons ltd, The Atrium, Southern Gate, Chichester, West Sussex, England, p.p. 89-91, 97-99, 163-165, 167-169, 178-180, 182.