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An angular distribution of received signals has a significant impact on their spectral and correlational properties. Most of angular dispersion models do not consider antenna patterns. The developed procedure for determining the propagation path parameters enables a wide range of assessment of the impact of the propagation environment on the received signal properties. In contrast to the other models,...
The paper is devoted to the problem of assessing the intensity of the angular power spectrum phenomenon of the received signals as a function of the propagation conditions in environment. To assess the impact of environment on the angular power spectrum, the multi-elliptical propagation model is used. Evaluation of angular power spectrum is shown as a function of the type propagation environment,...
The purpose of this paper is to assess the impact of transmission parameters of propagation environment on the properties of statistical fading. Assessment is shown on the basis of simulation studies that Doppler multi-elliptical channel model (DMCM) is used. Such parameters as level crossing rates (LCR) and average fade durations (AFD) are applied as a measure of intensity fading. In terms of statistical...
Statistical properties of the direction of signal arrival play an important role in shaping correlation and spectral properties of the received signals. In this study, the adjustment method for the 2D selected model of the probability density function of direction of arrival is presented. Here, we are focusing on adjusting the Gaussian scatter density model (GSDM) to different environmental conditions...
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