用分解法实现MIMO蜂窝网络的最优自由度

2013 13th Canadian Workshop on Information Theory Pub Date : 2013-06-18 DOI:10.1109/CWIT.2013.6621602

G. Sridharan, Wei Yu

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引用次数: 1

摘要

本文研究了基于分解的方案在实现多输入多输出(MIMO)蜂窝网络的最优自由度(DoF)中的意义。我们考虑具有G个小区的MIMO蜂窝网络，每个小区有K个用户，每个用户有M个天线，每个基站(BS)有N个天线。我们假设所有的通道都是通用的和时变的。我们表明，通过对MIMO蜂窝网络(在用户侧)进行单边分解，然后使用渐近干扰对准方案，可以实现KM + N DoF/cell的KMN。然后，我们证明了当M / N = 1 / q时，这种方法达到了最优自由度，其中式。利用一组新的蜂窝MIMO网络的DoF外边界证明了该算法的最优性。最后，我们评论了使用双边分解获得的DoF，以及单天线用户蜂窝网络和双蜂窝网络的最优DoF。

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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On achieving optimal degrees of freedom of MIMO cellular networks using decomposition

This paper investigates the significance of decomposition-based schemes in achieving the optimal degrees of freedom (DoF) of multiple-input multiple-output (MIMO) cellular networks. We consider MIMO cellular networks with G cells, K users/cell with M antennas at each user, and N antennas at each base-station (BS). We assume all channels to be generic and time varying. We show that KMN over KM + N DoF/cell can be achieved through one-sided decomposition of a MIMO cellular network (on the user side), followed by the use of an asymptotic interference alignment scheme. We then prove that such an approach achieves the optimal DoF whenever M over N = 1 over q, where equation. The optimality is proved using a new set of outer bounds on the DoF of a MIMO cellular network. Finally, we comment on the DoF achieved using two-sided decomposition, and the optimal DoF of cellular networks with single-antenna users and cellular networks with two cells.

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2013 13th Canadian Workshop on Information Theory

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