Title: MIMO Two-Way Relaying: A Space-Division Approach
Abstract: We propose a novel space-division based network-coding scheme for multiple-input multiple-output (MIMO) two-way relay channels (TWRCs), in which two multi-antenna users exchange information via a multi-antenna relay. In the proposed scheme, the overall signal space at the relay is divided into two subspaces. In one subspace, the spatial streams of the two users have nearly orthogonal directions, and are completely decoded at the relay. In the other subspace, the signal directions of the two users are nearly parallel, and linear functions of the spatial streams are computed at the relay, following the principle of physical-layer network coding (PNC). Based on the recovered messages and message-functions, the relay generates and forwards network-coded messages to the two users. We show that, at high signal-to-noise ratio (SNR), the proposed scheme achieves the asymptotic sum-rate capacity of MIMO TWRCs within 1/2log(5?4) ? 0?161 bits per user-antenna for any antenna configuration and channel realization. We perform large-system analysis to derive the average sum-rate of the proposed scheme over Rayleigh-fading MIMO TWRCs. We show that the average asymptotic sum-rate gap to the capacity upper bound is at most 0.053 bits per relay-antenna. It is demonstrated that the proposed scheme significantly outperforms the existing schemes.
Bio: Xiaojun Yuan received the B.S. degree in electronic and information systems from Shanghai Jiaotong University, the M.S. degree in circuit and systems from Fudan University, and the Ph.D. degree in electrical engineering from City University of Hong Kong in 2008. After graduation, he was a research fellow at the Department of Electronic Engineering, City University of Hong Kong. During 2009-2010, he was also working as a visiting scholar at the University of Hawaii at Manoa. He is now a research assistant professor at the Institute of Network Coding, Department of Information Engineering, the Chinese University of Hong Kong. His research interest falls into the general area of signal processing and information theory, including channel coding and coded modulation, wireless multiple-input multiple-output (MIMO) communications, and physical-layer network coding (PNC), etc. He has published over 30 refereed papers in the leading journals and conferences in the related areas. He served as the Technical Program Committee (TPC) members for several international conferences including WCNC, PIMRC, etc.