Real Interference Alignment: Exploiting the Potential of Single Antenna Systems
Abstract
In this paper, the available spatial Degrees-Of-Freedoms (DOF) in single antenna systems is exploited. A new coding scheme is proposed in which several data streams having fractional multiplexing gains are sent by transmitters and interfering streams are aligned at receivers. Viewed as a field over rational numbers, a received signal has infinite fractional DOFs, allowing simultaneous interference alignment of any finite number of signals at any finite number of receivers. The coding scheme is backed up by a recent result in the field of Diophantine approximation, which states that the convergence part of the Khintchine-Groshev theorem holds for points on non-degenerate manifolds. The proposed coding scheme is proved to be optimal for three communication channels, namely the Gaussian Interference Channel (GIC), the uplink channel in cellular systems, and the channel. It is proved that the total DOF of the -user GIC is almost surely, i.e. each user enjoys half of its maximum DOF. Having cells and users within each cell in a cellular system, the total DOF of the uplink channel is proved to be . Finally, the total DOF of the channel with transmitters and receivers is shown to be .
Cite
@article{arxiv.0908.2282,
title = {Real Interference Alignment: Exploiting the Potential of Single Antenna Systems},
author = {Abolfazl Seyed Motahari and Shahab Oveis Gharan and Mohammad-Ali Maddah-Ali and Amir Keyvan Khandani},
journal= {arXiv preprint arXiv:0908.2282},
year = {2016}
}
Comments
Submitted to IEEE Transaction on Information Theory. The first version was uploaded on arxiv on 17 Aug 2009 with the following title: Forming Pseudo-MIMO by Embedding Infinite Rational Dimensions Along a Single Real Line: Removing Barriers in Achieving the DOFs of Single Antenna Systems