Partial decode-forward coding schemes for the Gaussian two-way relay channel

We design novel partial decode-forward (PDF) schemes for the Gaussian two-way relay channel with direct link. Different from pure decode-forward, each user divides its message into two parts and the relay decodes only one part of each. The relay then generates its codeword as a function of the two decoded parts and forwards to the two users. We propose PDF schemes for both the full- and half-duplex modes. In full duplex, the scheme is based on block Markov encoding and forward joint decoding over 2 consecutive blocks. In half duplex, the transmission is divided into 4 phases, in which one user transmits during the first phase, the other during the second phase, both users transmit during the third phase and the relay transmits during the last phase. The relay decodes a part of the messages from both users at the end of phase 3 and each user decodes only at the end of phase 4. Analysis and simulation show that if for one user, the direct link is stronger than the user-to-relay link, while for the other, the direct link is weaker, then PDF can achieve a rate region strictly larger than the time-shared region of pure decode-forward and direct transmission for both full- and half-duplex modes.

[1]  Jörg Kliewer,et al.  Memoryless Relay Strategies for Two-Way Relay Channels: Performance Analysis and Optimization , 2008, 2008 IEEE International Conference on Communications.

[2]  Hesham El Gamal,et al.  The three-node wireless network: achievable rates and Cooperation strategies , 2005, IEEE Transactions on Information Theory.

[3]  Patrick Mitran,et al.  Performance Bounds for Bidirectional Coded Cooperation Protocols , 2007, IEEE Transactions on Information Theory.

[4]  J. Nayak,et al.  Rate regions for the separated two-way relay channel , 2008, 2008 46th Annual Allerton Conference on Communication, Control, and Computing.

[5]  Jianquan Liu,et al.  Superimposed XOR: A New Physical Layer Network Coding Scheme for Two-Way Relay Channels , 2009, GLOBECOM 2009 - 2009 IEEE Global Telecommunications Conference.

[6]  Claude E. Shannon,et al.  Two-way Communication Channels , 1961 .

[7]  Mai H. Vu,et al.  Decode-forward and compute-forward coding schemes for the two-way relay channel , 2011, 2011 IEEE Information Theory Workshop.

[8]  Liang-Liang Xie Network Coding and Random Binning for Multi-User Channels , 2007, 2007 10th Canadian Workshop on Information Theory (CWIT).

[9]  Armin Wittneben,et al.  Achievable Rate Regions for the Two-way Relay Channel , 2006, 2006 IEEE International Symposium on Information Theory.

[10]  Tracey Ho,et al.  Distributed Space–Time Coding for Two-Way Wireless Relay Networks , 2008, IEEE Transactions on Signal Processing.

[11]  Branka Vucetic,et al.  Decode-and-Forward Two-Way Relaying with Network Coding and Opportunistic Relay Selection , 2010, IEEE Transactions on Communications.

[12]  Patrick Mitran,et al.  Achievable Rate Regions and Performance Comparison of Half Duplex Bi-Directional Relaying Protocols , 2011, IEEE Transactions on Information Theory.

[13]  Slawomir Stanczak,et al.  Achievable rates for the restricted half-duplex two-way relay channel under a partial-decode-and-forward protocol , 2008, 2008 IEEE Information Theory Workshop.