IEEE Access (Jan 2015)
Dynamic Channel Modeling for an Indoor Scenario at 23.5 GHz
Abstract
In this paper, the dynamic channel characteristics at 23.5 GHz in an indoor scenario are investigated according to measurement and deterministic simulation. In order to obtain accurate channel realizations, the ray tracing (RT) software is calibrated on both the power delay profile and the path levels. For the measurement data, the propagation paths are identified using the non-parametric peak detection algorithm. The cluster-alike behaviors of these paths and the influence of the antenna radiation pattern are also studied through the comparison with the RT simulated paths. Subsequently, the evolutionary traces of channel with regard to the user equipment's movement are identified by associating the samples, which have the similar parameters at adjacent locations. The features of these traces are analyzed in both statistical and individual ways. Results show that the life durations of most traces are within 5 m. The line of sight and reflected paths with significant power survive longer than the others. These observations confirm the feasibility of designing adaptive beam tracking algorithms based on the spatial consistency of the dominant propagation paths. Moreover, high correlations among the variations of different parameters in the same trace are revealed.
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