L波段和c波段航空移动地面链路的窄带传播统计

A. Smith, D. Matolak, R. Kerczewski
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摘要

为了将无人机系统(UAS)安全集成到国家空域系统(NAS)中,指挥和控制(C2)链路必须高度可靠。因此,需要受保护的航空频谱来支持集成到受控非隔离空域的无人机的此类链接。对于空地(即非卫星)链路,支持C2链路的受保护航空频谱可在960-1164 MHz (L)和5030-5091 MHz (C)频段使用。任何C2系统的性能都严重依赖于空地(AG)信道的特性。因此,作为其在NAS中的UAS集成(NAS中的UAS)项目的一部分,美国国家航空航天局(NASA)进行了一系列空地传播飞行试验,以收集AG通道数据,用于模型开发和分析能够提供所需可靠性的潜在C2通信链路。美国宇航局格伦研究中心(GRC)在7种不同的地形环境下,对960-977 MHz和5030-5091 MHz范围内的频率进行了广泛的空地信道传播测量活动(在高空)。测量是在2013年进行的,产生了迄今为止收集到的最大的AG通道数据集。这些数据随后被处理以建立AG通道的模型。所收集的统计数据使窄带和宽带信道的信道模型参数的推导成为可能。为了使传播数据得到广泛使用,对所得的窄带统计数据进行了处理,并提交给国际电信联盟-无线电通信部门(ITU-R)第三研究组数据库。制定了数据表格式,编制了7个地面场址地形环境的窄带传播汇总统计数据表,提交ITU-R第3研究组并由其批准。本文简要介绍了测量活动、数据收集和处理以及窄带数据表的开发背景。它进一步提供了数据及其使用的示例。
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Narrowband propagation statistics of aeronautical mobile-ground links in the L- and C-bands
To provide for the safe integration of unmanned aircraft systems (UAS) into the National Airspace System (NAS), command and control (C2) links must be highly reliable. Hence, protected aviation spectrum is required to support such links for UAS that are integrated into controlled non-segregated airspace. For air-ground (i.e., non-satellite) links, protected aviation spectrum to support C2 links is available in the 960–1164 MHz (L) and 5030–5091 MHz (C) bands. The performance of any C2 system is critically dependent upon the characteristics of the air-ground (AG) channel. Therefore, as part of its UAS Integration in the NAS (UAS in the NAS) project, the U.S. National Aeronautics and Space Administration (NASA) performed a series of air-ground propagation flight tests to collect AG channel data for model development and analysis of potential C2 communications links capable of providing the required reliability. NASA's Glenn Research Center (GRC) conducted an extensive air-ground channel propagation measurement campaign (at altitude) for frequencies in the 960–977 MHz and 5030–5091 MHz ranges, for seven different terrain environments. The measurements were conducted in 2013, and produced the largest set of AG channel data ever gathered to date. This data was subsequently processed to develop models for the AG channel. The statistics collected enabled the derivation of channel model parameters for both narrowband and wideband channels. In order to make the propagation data widely available, the resulting narrowband statistics were processed and submitted to the International Telecommunications Union-Radiocommunication Sector (ITU-R) Study Group 3 Data Banks. Formats for data tables were developed, and tables of the aggregate narrowband propagation statistics for the seven ground site terrain environments were prepared, submitted to, and approved by, the ITU-R Study Group 3. This paper provides brief background on the measurement campaign, collection and processing of data, and development of the narrowband data tables. It further provides examples of the data and its use.
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