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引用次数: 4
摘要
第三代合作伙伴计划(Third Generation Partnership Project)提出了在现有蜂窝网络拓扑结构上异构部署Femtocell Access point (FAPs)等低功耗室内热点,以应对持续不断的无线流量和提高高墙透损的链路质量。在这种飞蜂窝与宏蜂窝共存的两层异构网络(HetNet)中,fap可能会以计划外的方式在空间上重用分配给宏蜂窝基站的频谱,从而减轻产生的同信道干扰成为一个主要挑战。在封闭存取模式下,特别是在城市和城郊环境中,FAPs的问题更为严重。本文通过对宏用户和femto用户的信噪比和实现的用户吞吐量建模,分析了下行链路干扰对宏用户和femto用户服务质量的影响。仿真结果表明,干扰显著降低了用户吞吐量,并造成了覆盖空洞。很明显,在同信道操作下限制接入fap的性能需要明确地考虑和优化跨层和同层干扰
Downlink Interference Analysis in LTE-Femtocell Networks
Aiming to cope up with relentless wireless traffic and improving link quality against high wall penetration loss, Third Generation Partnership Project proposed the heterogeneous deployment of low power indoor hot spots such as Femtocell Access Points (FAPs) over the existing cellular network topology. In this two-tier heterogeneous network (HetNet) where femtocells coexist with macrocell, the FAPs may spatially reuse the spectrum assigned to macrocell base station in an unplanned way and the mitigation of the generated co-channel interference becomes a major challenge. The problem is more severe with FAPs operating in a closed access mode, particularly in urban and sub-urban environment. In this work, the impact of interference in downlink on quality of service to macro user and femto user is analyzed by modeling the Signal-to-Interference and Noise Ratio and achieved user throughput. Simulation results show significant reduction of achieved user throughput and creation of coverage holes because of interference. It is clear that the performance of restricted access FAPs under co-channel operation need to be explicitly accounted for and optimized against both cross-tier and co-tier interference
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