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A wideband spatial channel model for system-wide simulations
Authors
G. Calcev Chizhik, D. Göransson, B. Howard, S. Huang, H. Kogiantis, A. Molisch, A.F. Moustakas, A.L. Reed, D. Xu, H.
Publication date
1 January 2007
Publisher
Abstract
A wideband space-time channel model is defined, which captures the multiple dependencies and variability in multicell system-wide operating environments. The model provides a unified treatment of spatial and temporal parameters, giving their statistical description and dependencies across a large geographical area for three outdoor environments pertinent to third-generation cellular system simulations. Parameter values are drawn from a broad base of recently published wideband and multiple-antenna measurements. A methodology is given to generate fast-fading coefficients between a base station and a mobile user based on the summation of directional plane waves derived from the statistics of the space-time parameters. Extensions to the baseline channel model, such as polarized antennas, are given to provide a greater variety of spatial environments. Despite its comprehensive nature, the model's implementation complexity is reasonable so it can be used in simulating large-scale systems. Output statistics and capacities are used to illustrate the main characteristics of the model. © 2007 IEEE
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Last time updated on 10/02/2023