Cognitive interference alignment between small cells and a macrocell

2012 19th International Conference on Telecommunications (ICT) Pub Date : 2012-04-23 DOI:10.1109/ICTEL.2012.6221210

S. Chatzinotas, B. Ottersten

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引用次数: 28

Abstract

Small cells have attracted large interest lately in the research community, mainly due to easy and quick deployment. In addition, a large number of small cells is in general more energy efficient than macrocells since less power is required to combat path loss and get across the wireless medium. However, in current network configurations these two types of cells have to coexist over the same spectrum because existing cellular systems are mainly based on macrocells and additional bandwidth for small cell deployments is scarce and too expensive to acquire. In this context, this contribution investigates an underlay cognitive communication technique which exploits interference alignment across multiple antennas in order to mitigate the interference of small cell User Terminals (UTs) towards the macrocell Base Station (BS). More specifically, three techniques for aligning interference are investigated, namely static, coordinated and un-coordinated. The system performance is evaluated and compared based on sum-rate capacity, primary rate protection ratio and primary to secondary rate ratio.

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小细胞和大细胞之间的认知干扰

小型细胞最近在研究界引起了很大的兴趣，主要是因为它易于快速部署。此外，大量的小型蜂窝通常比大型蜂窝更节能，因为对抗路径损耗和通过无线介质所需的功率更少。然而，在当前的网络配置中，这两种类型的蜂窝必须在同一频谱上共存，因为现有的蜂窝系统主要基于宏蜂窝，而用于小型蜂窝部署的额外带宽很少，而且获取成本太高。在这种情况下，本贡献研究了一种底层认知通信技术，该技术利用跨多天线的干扰对齐，以减轻小蜂窝用户终端(ut)对宏蜂窝基站(BS)的干扰。具体地说，研究了三种调直技术，即静态、协调和非协调。根据和速率容量、主速率保护比和主从速率比对系统性能进行评价和比较。

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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2012 19th International Conference on Telecommunications (ICT)

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