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引用次数: 24
摘要
Lee(1989)发明了频率重用的概念。Lee还得出结论,当路径损耗指数/spl γ /=4时,对于18 db C/I要求,频率重用因子必须为7。建立了一个模拟器来进行精确的C/I分析。从分析中可以看出,C/I满意度百分比随频率复用因子K和路径损耗指数/spl γ /而变化。这是设计蜂窝系统的一个特点。具体来说,对于94%的C/I满意度百分比,我们只需要K=3来分割细胞。此外,我们可以看到,第一干扰层在干扰贡献中是最主要的。对于反向链路中均匀分布的移动,我们给出了第2层和第3层与第1层干扰之比的保守近似。我们还发现,在反向环节的功率控制可以提高C/I比满意度高达45%。
Frequency reuse factor vs. pathloss exponent and sectorization
Lee (1989) invented the concept of frequency reuse. Lee has also concluded in general that the frequency reuse factor has to be 7 for an 18 db C/I requirement when the path-loss exponent /spl gamma/=4. A simulator was built to do an exact C/I analysis. From the analysis, it can be seen that the C/I satisfaction percentage varies with frequency reuse factor K and path-loss exponent /spl gamma/. This is a characteristic in designing a cellular system. Specifically, for 94% C/I satisfaction percentage, we only need K=3 for sectorized cells. Also, we can see that the first interfering tier is the most dominating in the interference contribution. We give a conservative approximation of the ratio of 2nd and 3rd tier to 1st tier interference for uniformly distributed mobiles in the reverse link. We also find that power control in the reverse link can improve the C/I ratio satisfaction upto 45%.
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