60ghz频段时域非平稳车厢内信道测量

2016 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2016-10-01 DOI:10.1109/ATC.2016.7764753

A. Prokeš, Josef Vychodil, Martin Pospísil, J. Blumenstein, T. Mikulášek, A. Chandra

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引用次数: 11

摘要

本文研究了60 GHz毫米波(MMW)波段车载时变信道的测量，采用一种独特的时域信道测深仪，该测深仪由现成的组件和标准测量设备组成。本文的目的是描述探测仪的结构、主要数据处理技术，以及针对车辆振动和扭转以及乘客在车厢内移动的影响的初步测量结果。由于车厢振动和扭转的幅值与毫米波波长相当，因此对信道脉冲响应(CIR)和延迟-多普勒扩频(DDS)有一定的影响。初步结果证实了这一假设的正确性，并允许我们评估上述不同现象的影响。我们测试了在不同类型的道路(颠簸的道路，平坦的道路，高速公路等)上驾驶汽车的效果。为了比较的目的，我们使用DDS和统计的CIR振幅计算使用相关技术应用于伪随机二值序列。

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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Time-domain nonstationary intra-car channel measurement in 60 GHz band

The paper deals with a time varying intra-vehicle channel measurement in the 60 GHz millimeter wave (MMW) band using a unique time-domain channel sounder built from off-the-shelf components and standard measurement devices. The aim of the presented work is to describe the sounder architecture, the primary data processing technique, and preliminary results of measurements aimed at the effect of vehicle vibrations and twisting, and passengers moving in a car cabin. As the amplitude of the car cabin vibration and twisting had been supposed to be comparable with the MMW wavelength, some effect on the channel impulse response (CIR) and consequently on the delay-Doppler spread (DDS) was expected. Preliminary results confirm the correctness of this assumption and allow us to assess the effect of different above-mentioned phenomena. We tested the effect of driving the car on different types of road (bumpy road, flat road, highway, etc.). For comparison purposes we use DDS and statistics of CIR amplitudes calculated using the correlative technique applied to the pseudorandom binary sequence.

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来源期刊

2016 International Conference on Advanced Technologies for Communications (ATC)

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