用于无线信道建模的基于投影的新型光束发射方法

IF 4.6 1区计算机科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Antennas and Propagation Pub Date : 2025-01-28 DOI:10.1109/TAP.2025.3532083

Yuyang Zhou;Cheng-Xiang Wang;Songjiang Yang;Yinghua Wang;Jie Huang;el-Hadi M. Aggoune

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引用次数: 0

摘要

为了提高射线追踪（RT）通道建模的效率，提出了一种基于三维投影的光束发射（PB-RL）方法。PB-RL利用投影概念定义两种类型的射线束，用于加速交叉测试和接收测试。在投影的帮助下，将梁与墙的相交测试简化为投影多边形之间的判断，并采用改进的Gilber-Johnson-Keerthi （GJK）算法，以降低复杂性获得准确的判断结果。基于传播波束的形状，通过最小的盒预判断来加速接收测试，这对于大量接收点（Rx）尤其有效。光线的传播是通过光束的变换完成的，通过裁剪计算出详细的照明区域，为每个被覆盖的物体精确地产生子光束。仿真结果表明，与传统的RL方法相比，该方法的总计算时间显著减少。通过实测数据验证了PB-RL计算的通道特性比传统方法计算的通道特性精度更高。

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A Novel Projection-Based Beam Ray Launching Method for Wireless Channel Modeling

In this article, a 3-D projection-based beam ray launching (PB-RL) method is proposed for improving the efficiency of ray-tracing (RT) channel modeling. PB-RL utilizes the projection concept to define two types of ray beams for accelerating intersection tests and reception tests. With the help of projection, intersection tests between beams and walls are simplified to judgments between projected polygons, where an improved Gilber–Johnson–Keerthi (GJK) algorithm is applied to obtain accurate judgment results with reduced complexity. Based on the shapes of propagated beams, reception tests are accelerated by minimal box pre-judgments, which is especially effective for a vast array of receiver (Rx) points. Propagation of rays is completed by the transformation of ray beams, with a detailed illuminated area computed by clipping, generating sub-beams precisely for each covered object. Simulation results show that the total computational time is reduced significantly as compared with traditional RL methods. Channel characteristics computed by PB-RL are more accurate than those obtained by traditional methods, which are verified by measurement data.

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来源期刊

IEEE Transactions on Antennas and Propagation 工程技术-电信学

CiteScore

10.40

自引率

28.10%

发文量

968

审稿时长

4.7 months

期刊介绍： IEEE Transactions on Antennas and Propagation includes theoretical and experimental advances in antennas, including design and development, and in the propagation of electromagnetic waves, including scattering, diffraction, and interaction with continuous media; and applications pertaining to antennas and propagation, such as remote sensing, applied optics, and millimeter and submillimeter wave techniques