Simulations and measurements of 15 and 28 GHz indoor channels with different array configurations

2017 International Workshop on Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT) Pub Date : 2017-04-28 DOI:10.1109/IWAT.2017.7915373

Q. Liao, Z. Ying, Carl Gustafson

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引用次数: 14

Abstract

There are many different frequency bands above 6 GHz and into the mm-wave range above 30 GHz that are possible candidates for use in future 5G cellular systems. In this paper, we present some results for wireless channels at 15 and 28 GHz in an indoor scenario. The results are based on both measurements and ray tracing simulations. Basic comparisons of measured and simulated power-delay profiles, angle of departure and received power are presented to give an insight to the possibilities and limitations of utilizing ray tracing to characterize the indoor wireless channel at 15 and 28 GHz. We show that it is important to consider human body shadowing as well as finer structures and details in the ray tracing environment model in order to achieve reasonable results. Lastly, we also perform ray tracing simulations to assess the performance of a number of different array signal processing techniques, including beamforming, hybrid beamforming and spatial multiplexing.

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不同阵列配置下15 GHz和28 GHz室内信道的仿真与测量

6ghz以上和30ghz以上的毫米波范围内有许多不同的频段，可能用于未来的5G蜂窝系统。在本文中，我们给出了一些室内场景下15 GHz和28 GHz无线信道的结果。结果是基于测量和光线追踪模拟。给出了测量和模拟的功率延迟曲线、出发角和接收功率的基本比较，以深入了解利用光线追踪来表征15 GHz和28 GHz室内无线信道的可能性和局限性。我们表明，为了获得合理的结果，在光线追踪环境模型中考虑人体阴影以及更精细的结构和细节是很重要的。最后，我们还进行了射线追踪模拟，以评估许多不同阵列信号处理技术的性能，包括波束形成、混合波束形成和空间复用。

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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2017 International Workshop on Antenna Technology: Small Antennas, Innovative Structures, and Applications (iWAT)

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