Successive zero-forcing DPC with sum power constraint: Low-complexity optimal designs

2012 IEEE International Conference on Communications (ICC) Pub Date : 2012-11-29 DOI:10.1109/ICC.2012.6364080

Le-Nam Tran, M. Juntti, M. Bengtsson, B. Ottersten

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引用次数: 2

Abstract

Successive zero-forcing dirty paper coding (SZF-DPC) is a simplified alternative to DPC for MIMO broadcast channels (MIMO BCs). In the SZF-DPC scheme, the noncausally-known interference is canceled by DPC, while the residual interference is suppressed by the ZF technique. Due to the ZF constraints, the precoders are constrained to lie in the null space of a matrix. For the sum rate maximization problem under a sum power constraint, the existing precoder designs naturally rely on the singular value decomposition (SVD). The SVD-based design is optimal but needs high computational complexity. Herein, we propose two low-complexity optimal precoder designs for SZF-DPC, all based on the QR decomposition (QRD), which requires lower complexity than SVD. The first design method is an iterative algorithm to find an orthonormal basis of the null space of a matrix that has a recursive structure. The second proposed method, which will be shown to require the lowest complexity, results from applying a single QRD to the matrix comprising all users' channel matrices. We analytically and numerically show that the two proposed precoder designs are optimal.

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具有和功率约束的连续零强迫DPC:低复杂度优化设计

连续零强制脏纸编码(SZF-DPC)是MIMO广播信道(MIMO bc)的一种简化的DPC替代方案。在SZF-DPC方案中，非因果已知干扰被DPC消除，剩余干扰被ZF技术抑制。由于ZF约束，预编码器被限制在矩阵的零空间中。对于和功率约束下的和速率最大化问题，现有的预编码器设计自然依赖于奇异值分解(SVD)。基于奇异值分解的设计是最优的，但需要较高的计算复杂度。在此，我们提出了两种低复杂度的SZF-DPC最优预编码器设计，均基于QR分解(QRD)，其复杂度低于SVD。第一种设计方法是用迭代算法寻找具有递归结构的矩阵的零空间的标准正交基。第二种提出的方法将被证明需要最低的复杂性，其结果是将单个QRD应用于包含所有用户信道矩阵的矩阵。通过分析和数值计算表明，这两种预编码器设计都是最优的。

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 IEEE International Conference on Communications (ICC)

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