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A Mixed-Bouncing Based Non-Stationarity and Consistency 6G V2V Channel Model With Continuously Arbitrary Trajectory

Ziwei Huang, Lu Bai, Mingran Sun, Xiang Cheng, Preben Mogensen, Xuesong Cai

2023IEEE Transactions on Wireless Communications27 citationsDOIOpen Access PDF

Abstract

In this paper, a novel three-dimensional (3D) irregular shaped geometry-based stochastic model (IS-GBSM) is proposed for sixth-generation (6G) millimeter wave (mmWave) massive multiple-input multiple-output (MIMO) vehicle-to-vehicle (V2V) channels. To investigate the impact of vehicular traffic density (VTD) on channel statistics, clusters are divided into static clusters and dynamic clusters, which are further distinguished into static/dynamic single/twin-clusters to capture the mixed-bouncing propagation. A new method, which integrates the visibility region and birth-death process methods, is developed to model space-time-frequency (S-T-F) non-stationarity of V2V channels with time-space (T-S) consistency. The continuously arbitrary vehicular movement trajectory (VMT) and soft cluster power handover are modeled to further ensure channel T-S consistency. From the proposed model, key channel statistics are derived. Simulation results show that S-T-F non-stationarity of channels with T-S consistency is modeled and the impacts of VTD and VMT on channel statistics are analyzed. The generality of the proposed model is validated by comparing simulation results and measurement/ray-tracing (RT)-based results.

Topics & Concepts

TrajectoryChannel (broadcasting)Computer scienceApplied mathematicsWirelessConsistency (knowledge bases)MathematicsAlgorithmControl theory (sociology)Mathematical optimizationTopology (electrical circuits)TelecommunicationsPhysicsCombinatoricsArtificial intelligenceAstronomyControl (management)Advanced MIMO Systems OptimizationFull-Duplex Wireless CommunicationsPower Line Communications and Noise
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