N. Cassiau, L. Maret, Jean-Baptiste Doré, V. Savin, D. Kténas
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引用次数: 7
摘要
对最新发布的5G新空口物理层(PHY)在典型卫星场景下的性能、错误率和同步性进行了评估。考虑了Ka波段的四种传播通道,并对实现约束进行了建模。结论高度依赖于通道类型。对于开放的农村和高速列车(300公里/小时)场景,5G NR PHY可以原样使用。更高速度的场景(航空1000公里/小时)可以从5G NR模式中受益,该模式允许非常短的符号(尽管该模式只允许大频段)。最后,我们证明,由于长衰落周期,应该考虑在支持两状态信道(例如郊区)的标准中进行修订。
Assessment of 5G NR Physical Layer for Future Satellite Networks
The performance, error rate and synchronization, of recently released 5G New Radio (NR) physical layer (PHY) with typical satellite scenarios are assessed in this paper. Four propagation channels in Ka band are considered and implementation constraints are modeled. The conclusions highly depend on the channel type. For open rural and high speed train (300 km/h) scenarios, 5G NR PHY may be used as is. Higher speed scenarios (aero 1000 km/h) can benefit from the 5G NR mode that allows very short symbols (although this mode is only allowed for large band). Finally, we demonstrate that amendments should be considered in the standard for supporting 2-state channels (suburban for example), due to the long fading periods.
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