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A new simple and accurate model defined as shield edge diffraction is derived and validated suitable for frequencies above 10 GHz diffracting around obstructions that are narrow compared to the… Click to show full abstract
A new simple and accurate model defined as shield edge diffraction is derived and validated suitable for frequencies above 10 GHz diffracting around obstructions that are narrow compared to the Fresnel zone width. The model includes new simple Fresnel diffraction parameters similar to those used with traditional knife edge diffraction, which can in the same way be integrated into deterministic and empirical path loss models. The capability of the model extends beyond current single and double knife edge models whereby it includes the effects of the antennas’ far-field distances as well as their gain and phase patterns, which subsequently have a severe effect on the diffraction loss in short-range links. The models are validated using both the anechoic chamber as well as real environment-based measurements at 10–12 and 26 GHz.
Journal Title: IEEE Transactions on Antennas and Propagation
Year Published: 2018
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