In order to ensure the reliability of unmanned aircraft system (UAS) control and non-payload communication (CNPC) systems, comprehensive characterization of the air-ground (AG) radio propagation channel is vital. As part of the UAS integration into the National Airspace System (NAS), NASA's Glenn Research Center has sponsored an AG channel measurement and modeling campaign in the two UAS CNPC bands (L-band centered at 968 MHz and C-band at 5060 MHz). Measurements have been made in multiple ground site environments with a customized dual-band single-input/multiple-output (SIMO) channel sounder. In this paper we report on experimental data collected in Cleveland, OH, in which airframe shadowing occurred. Airframe shadowing (or blockage, obstruction) is a channel impairment that has not been well characterized. When shadowing occurs, typically during flight maneuvers such as banking turns, the line-of-sight (LOS) signal may be blocked by the aircraft wing or fuselage. This blockage can cause significant attenuation, in some cases enough to sever the communication link. In this paper we provide a brief motivation for our study, describe the measurements, then quantitatively characterize initial airframe shadowing results in the two UAS bands. We provide statistics on shadowing depth and duration. Small scale fading behavior and spatial correlation of multiple aircraft antennas during shadowing events are also compared with those in LOS conditions.
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机译:为了确保无人机系统(UAS)控制和非有效载荷通信(CNPC)系统的可靠性,空地(AG)无线电传播信道的全面表征是至关重要的。作为界面融入国家空域系统(NAS)的一部分,美国宇航局的Glenn Research Center在两个UAS CNPC带中赞助了AG通道测量和建模活动(L-Band以968 MHz和5060 MHz为中心的C波段) 。在多个接地站点环境中进行了测量,具有定制的双频频段单输入/多输出(SIMO)通道发声器。在本文中,我们报告了克利夫兰,哦,其中发生了机身阴影的实验数据。机身阴影(或堵塞,障碍)是一种渠道损伤,其特征在于。当发生阴影时,通常在诸如银行转弯的飞行中的飞行中,瞄准线(LOS)信号可以被飞机翼或机身挡住。这种堵塞可能导致显着衰减,在某些情况下足以切断通信链路。在本文中,我们为我们的研究提供了一个简短的动机,描述了测量,然后定量表征了两个UAS带中的初始机身阴影结果。我们提供关于阴影深度和持续时间的统计数据。与LOS条件中的那些相比,在阴影事件中的小规模衰落行为和多种飞机天线的空间相关性。
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