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In densely populated urban areas wireless communication is predominantly line-of-sight(LOS). To cater for high data rates, high frequency bands are likely to be used. At such frequency bandswhen skin depth of vegetation becomes small as compared to its actual thickness, effects of vegetation on radiowave propagation cannot be neglected.This report explores the effect of vegetation on signal attenuation. A statistical approach is used to model the effective attenuation caused by randomly scattered trees in the area. Theses effects are incorporated with other known effects to present a simple and efficient path loss model for urban microcells.…mehr

Produktbeschreibung
In densely populated urban areas wireless communication is predominantly line-of-sight(LOS). To cater for high data rates, high frequency bands are likely to be used. At such frequency bandswhen skin depth of vegetation becomes small as compared to its actual thickness, effects of vegetation on radiowave propagation cannot be neglected.This report explores the effect of vegetation on signal attenuation. A statistical approach is used to model the effective attenuation caused by randomly scattered trees in the area. Theses effects are incorporated with other known effects to present a simple and efficient path loss model for urban microcells.
Autorenporträt
Muhammad Umar Khan did his BE in Electrical Engineering from NUST, Pakistan and MS in Electronic Engineering from GIK Institute of Engineering Sciences and Technology, Pakistan. His research interests include path loss modeling, wireless communication and future communication systems.