Ray-tracing based Channel Modeling for Rough-boundary Environments

MILCOM 2021 - 2021 IEEE Military Communications Conference (MILCOM) Pub Date : 2021-11-29 DOI:10.1109/MILCOM52596.2021.9653090

Kyoung-Min Park, Eunji Lee, Jinwook Kim, Jaehoon Jung, Seong-Cheol Kim

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Abstract

Wireless ad-hoc network which has not been supported by centralized infrastructure is widely used because of its utilitarian ability. Thanks to a low-complex aspect, It is favorable for IoBT (Internet of Battlefield Things) applications. Propagation channel analysis prior to the network configuration is required to the appropriate sensor deployment. Although experimental approaches warrant an accuracy, ray-tracing simulator is employed because site measurements are highly prohibitive and labor-absorbing. The scattering mechanisms are tough to be implemented by a ray-tracing simulator, which often causes low accuracy in harsh areas, such as subterranean environments. In this paper, the surface scattering theory that considers an incident wave at a rough boundary as the radiation source is exploited to revise the existing ray-tracing simulator. The accuracy of the revised simulator is verified by the channel sounding conducted in the subterranean area which has much roughness. The measurement result indicates that a propagation channel could be well analyzed by employing the surface scattering theory for the ray-tracing based channel analysis.

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基于光线追踪的粗糙边界环境通道建模

无线自组网由于其实用性而得到了广泛的应用，而集中式基础设施并不支持无线自组网。由于其复杂性低，它有利于IoBT(战场物联网)应用。在进行传播信道分析之前进行网络配置是需要适当部署传感器的。虽然实验方法保证了准确性，但由于现场测量是高度禁止和费力的，因此采用了光线追踪模拟器。散射机制很难通过光线追踪模拟器实现，这通常导致在恶劣区域(如地下环境)的精度较低。本文利用以粗糙边界入射波为辐射源的表面散射理论，对现有的射线追踪模拟器进行了改进。通过在具有较大粗糙度的地下区域进行航道测深，验证了改进后模拟器的精度。测量结果表明，将表面散射理论应用于基于光线追踪的通道分析中，可以很好地分析传播通道。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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MILCOM 2021 - 2021 IEEE Military Communications Conference (MILCOM)

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