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Conference Paper A Graph-based Simulation Method for Propagation Channels with Multiple-knife-edge Diffraction
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Authors
Yuan Liu, Xuefeng Yin, Juyul Lee, Meisong Tong
Issue Date
2020-08
Citation
International Conference on Computational Electromagnetics (ICCEM) 2020, pp.1-3
Language
English
Type
Conference Paper
DOI
https://dx.doi.org/10.1109/ICCEM47450.2020.9219449
Abstract
In this paper, a simulation method reproducing the impact of multiple absorbing knife-edge diffraction on wireless radio propagation channel is proposed based on propagation graph modeling (PGM) that is recently applied to channel simulation with low-complexity by utilizing matrix product to update channel transfer states. In the new PGM proposed here, an iterative mathematic transformation is derived and applied to adapt the distance addition defined in the diffraction to a recursive matrix multiplication. Simulation results are compared among the newly proposed method and other classical numerical analytical approaches, e.g. geometry theory diffraction (GTD) and Deygout methods. It can be observed that the proposed method performs in good consistency to the existing methods when being applied to simulate the path loss behaviors.
KSP Keywords
Channel Simulation, Geometry theory, Graph modeling, Graph-based, Knife-edge, Low complexity, Path loss, Radio propagation channel, Simulation method, edge diffraction, matrix multiplication