Interference alignment and spatially-normalized degrees of freedom of cellular networks with two cells and three users per cell

Q4 Computer Science Journal of China Universities of Posts and Telecommunications Pub Date : 2013-12-01 DOI:10.1016/S1005-8885(13)60215-0

Xiao-shi SONG, Chang-chuan YIN, Dan-pu LIU, Jian-feng LI

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Abstract

This paper characterizes the spatially-normalized degrees of freedom (DoF) of a 2-cell, 3-user per cell multiple input multiple output (MIMO) cellular networks with M antennas at each user and N antennas at each base station. We show that the spatially-normalized DoF is a piecewise linear function, with either M or N being the bottleneck. Given γ = M / N, we shown that for

there is redundancy in both M and N, i.e., either can be reduced without losing spatially-normalized DoF. On the other hand, for

it is shown that there is no redundancy in either M or N, i.e, neither can be reduced without losing spatially-normalized DoF. Our results also settle the issue of feasibility of linear interference alignment for all values of M and N. Specifically, it is shown that except for

for every other γ, the proper systems are actually not feasible.

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两个小区、每个小区有三个用户的蜂窝网络的干扰对准和空间归一化自由度

本文描述了一个2小区，每小区3个用户的多输入多输出(MIMO)蜂窝网络的空间归一化自由度(DoF)，每个用户有M个天线，每个基站有N个天线。我们证明了空间归一化自由度是一个分段线性函数，其中M或N是瓶颈。在给定γ = M / N的情况下，我们证明了在M和N中都存在冗余，即可以在不丢失空间归一化自由度的情况下减小任意一个。另一方面，由于M和N都不存在冗余，即在不损失空间归一化自由度的情况下，都不能进行约简。我们的结果也解决了所有M和n值的线性干涉对准的可行性问题。具体来说，它表明，除了每一个其他γ，适当的系统实际上是不可行的。

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