Degrees of Freedom of the MIMO 2x2 Interference Network with General Message Sets

TL;DR

This paper characterizes the Degrees of Freedom (DoF) region for the most general 2x2 MIMO interference network with nine messages, providing a comprehensive scheme that achieves optimal DoF for various antenna configurations.

Contribution

It establishes the DoF region for the general 2x2 MIMO interference network with nine messages, including novel outer bounds and a linear precoding scheme.

Findings

Derived the tight DoF region for the nine-message network.

Proposed a linear precoding scheme achieving all DoF tuples.

Identified antenna settings requiring asymmetric complex signaling.

Abstract

We establish the DoF region for the MIMO 2x2 interference network with a general message set, consisting of nine messages, one for each pair of a subset of transmitters at which that message is known and a subset of receivers where that message is desired. An outer bound on the general nine-message network is obtained and then it is shown to be tight, establishing the DoF region for the most general antenna setting wherein all four nodes have an arbitrary number of antennas each. The DoF-optimal scheme is applicable to the MIMO 2x2 network with constant channel coefficients, and hence, a fortiori, to time/frequency varying channel scenarios. In particular, a linear precoding scheme is proposed that can achieve all the DoF tuples in the DoF region. In it, the precise roles played by transmit zero-forcing, interference alignment, random beamforming, symbol extensions and asymmetric complex signaling are delineated. For instance, we identify a class of antenna settings in which ACS is required to achieve the fractional-valued corner points. Evidently, the DoF regions of all previously unknown cases of the 2x2 interference network with a subset of the nine-messages are established as special cases of the general result of this paper. In particular, the DoF region of the well-known four-message (and even three-message) MIMO X channel is established. This problem had remained open despite previous studies which had found inner and outer bounds that were not tight in general. Hence, the DoF regions of all special cases obtained from the general DoF region of the nine-message 2x2 interference network of this work that include at least three of the four X channel messages are new, among many others. Our work sheds light on how the same physical 2x2 network could be used by a suitable choice of message sets to take most advantage of the channel resource in a flexible and efficient manner.