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Methodology and preliminary findings towards the characterization and evaluation of non-line-of-sight (NLOS) paths for fixed broadband wireless communications for emergency and disaster response

机译:用于解决紧急和灾害响应的固定宽带无线通信的非关像线(NLOS)路径的表征和评估方法和评估方法和初步调查

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Fixed broadband microwave communications are usually considered line-of-sight (LOS) technologies. Conventional wisdom holds that non-line-of-sight (NLOS) paths are of insufficient quality for broadband commercial deployments. However, it is possible that the only links available in an emergency deployment are NLOS paths. Since little work has been published regarding the usefulness of these channels, the proposed measurement campaign will be focused on characterizing these channels and evaluating their potential to carry digital data with a desired fidelity. Field measurements are expected to begin in April, 2003 and will include channel impulse response measurements as well as bit error rate (BER) tests. Preliminary simulations have been run that demonstrate the dependence of BER on the complex channel impulse response rather than on certain statistics of the power delay profile. Early indications are that BER degradations due to the amplitude variation of the channel frequency response can be related to the variance of the amplitudes across the frequency band of interest.
机译:固定宽带微波通信通常被认为是视线(LOS)技术。传统智慧认为,非线性视线(NLOS)路径对于宽带商业部署的质量不足。但是,可以在紧急部署中提供的唯一可用链接是NLOS路径。由于对这些渠道的有用性发布了很少的工作,所提出的测量活动将集中在表征这些渠道并评估其具有所需保真度的数字数据的潜力。现场测量预计将于2003年4月开始,并将包括频道脉冲响应测量以及误码率(BER)测试。已经运行初步仿真,这证明了BER对复杂的信道脉冲响应的依赖性,而不是动力延迟配置文件的某些统计数据。早期迹象是由于信道频率响应的幅度变化导致的BER劣化可以与频带频带跨度的幅度的方差有关。

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