The DoF of the Asymmetric MIMO Interference Channel with Square Direct Link Channel Matrices

Abstract

This paper studies the sum Degrees of Freedom (DoF) of K-user asymmetric MIMO Interference Channel (IC) with square direct link channel matrices, that is, the u-th transmitter and its intended receiver have Mu∈N antennas each, where Mu need not be the same for all u∈[1:K]. Starting from a 3-user example, it is shown that existing cooperation-based outer bounds are insufficient to characterize the DoF. Moreover, it is shown that two distinct operating regimes exist. With a dominant user, i.e., a user that has more antennas than the other two users combined, %(say M1≥ M2+M3), it is DoF optimal to let that user transmit alone on the IC. Otherwise, it is DoF optimal to decompose and operate the 3-user MIMO IC as an (M1+ M2+M3)-user SISO IC. This indicates that MIMO operations are useless from a DoF perspective in systems without a dominant user. The main contribution of the paper is the derivation of a novel outer bound for the general K-user case that is tight in the regime where a dominant user is not present; this is done by generalizing the insights from the 3-user example to an arbitrary number of users.