Acceptable intersystem interference probability distribution between adjacent terrestrial and satellite networks operating above 10 GHz

A. Panagopoulos, T. Kritikos, J. Kanellopoulos
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Abstract

The present paper studies, interference issues arising from, the spectral and spatial coexistence between terrestrial stations participating in fixed wireless networks or in a point-to-point link and satellite terminals belonging to a satellite communication network, operating at frequencies above 10 GHz. Rain attenuation is considered to be the dominant fading mechanism at this frequency range. The acceptable intersystem interference probability AIIP of the carrier-to-interference ratio CIR of a terrestrial station interfered by a satellite is defined and analytically calculated. Adaptive power control schemes are assumed to operate for both networks. The correlated propagation fading phenomena over multiple terrestrial and slant paths are accurately incorporated. The proposed model is physical and can be applied on a global scale since incorporates properly the local climatic conditions concerning the point rainfall rate and the spatial rainfall inhomogeneity. Useful numerical results of the present model are finally provided and the impact of various crucial operational and geometrical parameters of satellite and fixed wireless networks' coexistence is also examined.
相邻地面和卫星网络之间可接受的系统间干扰概率分布
本文件研究参与固定无线网络或点对点链路的地面站与属于卫星通信网络的卫星终端之间频谱和空间共存所产生的干扰问题,频率在10千兆赫以上。降雨衰减被认为是该频率范围内的主要衰落机制。定义了受卫星干扰的地面站载波干扰比CIR的可接受系统间干扰概率AIIP,并进行了解析计算。假设自适应功率控制方案适用于两个网络。在多个地面和倾斜路径上的相关传播衰落现象被精确地合并。所提出的模式是物理的,可以在全球范围内应用,因为它适当地结合了有关点降雨率和空间降雨不均匀性的局部气候条件。最后给出了该模型的有用数值结果,并分析了卫星和固定无线网络共存的各种关键操作参数和几何参数的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Space Communications
Space Communications 工程技术-电信学
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