Precoder design for physical layer multicasting

This paper studies the design of linear precoders via instantaneous rate maximization over a K-user multicast channel, wherein multiple antennas are present at the transmitter as well as at all the receivers. We first consider the scenario wherein the linear precoder can be any complex valued matrix...

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Published in	2012 IEEE International Conference on Communications (ICC) pp. 2140 - 2144
Main Authors	Hao Zhu, Prasad, N., Rangarajan, S.
Format	Conference Proceeding
Language	English
Published	IEEE 01.06.2012
Subjects	Algorithm design and analysis Approximation algorithms Approximation methods Multicast communication Optimization Physical layer Robustness
Online Access	Get full text
ISBN	9781457720529 1457720523
ISSN	1550-3607
DOI	10.1109/ICC.2012.6364357

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Abstract	This paper studies the design of linear precoders via instantaneous rate maximization over a K-user multicast channel, wherein multiple antennas are present at the transmitter as well as at all the receivers. We first consider the scenario wherein the linear precoder can be any complex valued matrix subject to rank and power constraints. Recognizing the resulting optimization problem to be NP-hard, we propose a cyclic alternating ascent based algorithm and establish its convergence to a stationary point. Simulation results reveal that our proposed algorithm considerably outperforms known competing solutions. We then consider a scenario in which the linear precoder can be formed by selecting and concatenating codewords from a finite codebook of precoding matrices, subject to rank and power constraints. We show that under this scenario, the instantaneous rate maximization problem is equivalent to a robust submodular maximization problem which is strongly NP-hard. We then propose a deterministic approximation algorithm and show that it yields a bicriteria approximation.
AbstractList	This paper studies the design of linear precoders via instantaneous rate maximization over a K-user multicast channel, wherein multiple antennas are present at the transmitter as well as at all the receivers. We first consider the scenario wherein the linear precoder can be any complex valued matrix subject to rank and power constraints. Recognizing the resulting optimization problem to be NP-hard, we propose a cyclic alternating ascent based algorithm and establish its convergence to a stationary point. Simulation results reveal that our proposed algorithm considerably outperforms known competing solutions. We then consider a scenario in which the linear precoder can be formed by selecting and concatenating codewords from a finite codebook of precoding matrices, subject to rank and power constraints. We show that under this scenario, the instantaneous rate maximization problem is equivalent to a robust submodular maximization problem which is strongly NP-hard. We then propose a deterministic approximation algorithm and show that it yields a bicriteria approximation.
Author	Prasad, N. Rangarajan, S. Hao Zhu
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Snippet	This paper studies the design of linear precoders via instantaneous rate maximization over a K-user multicast channel, wherein multiple antennas are present at...
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StartPage	2140
SubjectTerms	Algorithm design and analysis Approximation algorithms Approximation methods Multicast communication Optimization Physical layer Robustness
Title	Precoder design for physical layer multicasting
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