来自挪威斯瓦尔巴群岛两年ka波段传播特性的结果

J. Nessel, Jacquelynne R. Morse, M. Zemba
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引用次数: 3

摘要

在接下来的几年里,美国宇航局计划发射几个地球科学任务,预计这些任务将实现每天从近地轨道航天器向地面站传输5-40太比特的数据吞吐量。然而,NASA目前使用的s波段和x波段频率分配无法支持满足这一需求所需的数据速率。因此,NASA正处于计划阶段,以升级其现有的近地网络(NEN)极地地面站,以支持ka波段(25.5-27 GHz)的操作。因此,必须对这些NEN站点的传播效应进行表征,以确定预期的系统性能,特别是在低仰角(<;10度),这是航天器信号采集通常发生的地方。自2011年5月以来,美国宇航局格伦研究中心在挪威斯瓦尔巴群岛的NEN站点安装并运行了一个ka波段辐射计。ka波段辐射计监测水蒸气线,以及26.5 GHz左右的6个频率在多个仰角:45度,20度和10度。两年的数据收集结果表明,其性能与美国北纬地区(即阿拉斯加的费尔班克斯)相当。观察到,斯瓦尔巴群岛站点的云层覆盖仍然是ka波段链路的主要损失机制,导致4.1 dB的余量需求以保持10°海拔99%的链路可用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Results from two years of Ka-band propagation characterization at Svalbard, Norway
Over the next several years, NASA plans to launch several earth science missions which are expected to achieve data throughputs of 5-40 terabits per day transmitted from low earth orbiting spacecraft to ground stations. The current S-band and X-band frequency allocations in use by NASA, however, are incapable of supporting the data rates required to meet this demand. As such, NASA is in the planning stages to upgrade its existing Near Earth Network (NEN) polar ground stations to support Ka-band (25.5-27 GHz) operations. Consequently, it becomes imperative that characterization of propagation effects at these NEN sites is conducted to determine expected system performance, particularly at low elevation angles (<; 10deg) where spacecraft signal acquisition typically occurs. Since May 2011, NASA Glenn Research Center has installed and operated a Ka-band radiometer at the NEN site located in Svalbard, Norway. The Ka-band radiometer monitors the water vapor line, as well as 6 frequencies around 26.5 GHz at multiple elevation angles: 45deg, 20deg, and 10deg. Two-year data collection results indicate comparable performance to previously characterized northern latitude sites in the United States, i.e., Fairbanks, Alaska. It is observed that cloud cover at the Svalbard site remains the dominant loss mechanism for Ka-band links, resulting in a margin requirement of 4.1 dB to maintain link availability of 99% at 10deg elevation.
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