A. Seville scite author profile

[1] The paper describes an extensive wideband channel sounding measurement campaign to investigate signal propagation through vegetation. The measurements have been conducted at three frequencies (1.3, 2 and 11.6 GHz) at sites with different measurement geometries and tree species. The data have been used to evaluate current narrowband empirical vegetation attenuation models and study the prevailing propagation mechanisms. Evaluation of the modified exponential decay (MED), maximum attenuation (MA) and nonzero gradient (NZG) models show that on a site by site basis, the NZG model gives the best prediction of excess attenuation due to vegetation. The MA model has been found to be the worst of the three models. The studies have shown that the measurement site used to obtain the NZG model parameter values given in International Telecommunication Union (ITU) [2001] is influenced by metal lampposts and passing traffic, and thus was based on corrupted data. The results show that the leaf state, measurement geometry and vegetation density are more important factors influencing signal attenuation than tree species or leaf shape. Generally, the 11.6 GHz signal was attenuated much more than the 1.3 and 2 GHz signals by vegetation in-leaf, but the differences in attenuation were not significant in the out-of-leaf state. A successful excess attenuation model due to vegetation must consider the measurement geometry and vegetation descriptive parameters as well as any contributions from ground reflection and/ or diffraction over the top or round edges of the trees.

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Semi-empirical model for millimetre-wave vegetationattenuation rates

Seville

Craig

1995

Electron. Lett.

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Vegetation attenuation: modelling and measurements at millimetric frequencies

Seville¹

1997

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A Generic Narrowband Model for Radiowave Propagation through Vegetation

Richter

Caldeirinha

Al-Nuaimi

et al.

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Building scatter and vegetation attenuation measurements at 38 GHz

Seville

Charriere²,

Powell³

et al. 1995

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A. Seville

Radio wave propagation through vegetation: Factors influencing signal attenuation

Semi-empirical model for millimetre-wave vegetationattenuation rates

Vegetation attenuation: modelling and measurements at millimetric frequencies

A Generic Narrowband Model for Radiowave Propagation through Vegetation

Building scatter and vegetation attenuation measurements at 38 GHz

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