Multiple-Antenna Interference Channels With Real Interference Alignment and Receive Antenna Joint Processing Based on Simultaneous Diophantine Approximation

摘要

In this paper, the degrees of freedom (DoF) regions of constant coefficient multiple antenna interference channels are investigated. First, we consider a (K) -user Gaussian interference channel with (M_{k}) antennas at transmitter (k) , (1le kle K) , and (N_{j}) antennas at receiver (j) , (1le jle K) , denoted as a ((K,[M_{k}],[N_{j}])) channel. Relying on a result of simultaneous Diophantine approximation, a real interference alignment scheme with joint receive antenna processing is developed. The scheme is used to obtain an achievable DoF region. The proposed DoF region includes two previously known results as special cases, namely: 1) the total DoF of ((K, [N],[N])) interference channel with (K) users and (N) antennas at each node is (NK/2) and 2) the total DoF of a ((K, [M],[N])) channel is at least (KMN/(M+N)) . We next explore constant-coefficient interference networks with (K) transmitt- rs and (J) receivers, all having (N) antennas. Each transmitter emits an independent message and each receiver requests an arbitrary subset of the messages. Employing the novel joint receive antenna processing, the DoF region for this setup is obtained. We finally consider wireless X networks where each node is allowed to have an arbitrary number of antennas. It is shown that the joint receive antenna processing can be used to establish an achievable DoF region, which is larger than what is possible with antenna splitting. As a special case of the derived achievable DoF region for constant coefficient X network, the total DoF of wireless X networks with the same number of antennas at all nodes and with joint antenna processing is tight while the best inner bound based on antenna splitting cannot meet the outer bound. Finally, we obtain a DoF region outer bound based on the technique of transmitter grouping.