TR2011-008

Comparison of Analog and Digital Network Coding Approaches for Bidirectional Relaying with Private Messages to the Relay


    •  Maaref, A.; Annavajjala, R.; Zhang, J., "Comparison of Analog and Digital Network Coding Approaches for Bidirectional Relaying with Private Messages to the Relay", IEEE Consumer Communications and Networking Conference (CCNC), ISBN: 978-1-4244-8789-9, January 2011, pp. 1207-1211.
      BibTeX Download PDF
      • @inproceedings{Maaref2011jan,
      • author = {Maaref, A. and Annavajjala, R. and Zhang, J.},
      • title = {Comparison of Analog and Digital Network Coding Approaches for Bidirectional Relaying with Private Messages to the Relay},
      • booktitle = {IEEE Consumer Communications and Networking Conference (CCNC)},
      • year = 2011,
      • pages = {1207--1211},
      • month = jan,
      • isbn = {978-1-4244-8789-9},
      • url = {http://www.merl.com/publications/TR2011-008}
      • }
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  • Research Areas:

    Electronics & Communications, Wireless Communications


In this paper, a multi-antenna two-way relaying protocol is proposed whereby two source nodes wishing to exchange information via a relay node additionally send private messages intended solely for the relay. In particular, we investigate the performance of this bidirectional relaying protocol over fading channels when the relay and source nodes are equipped with multiple antennas thus enabling them to leverage diversity and/or multiplexing gains. Specifically, provided enough antennas are available at the relay, the latter may opt for a demodulate-and-forward approach whereby it demodulates all incoming streams before broadcasting solely the messages to be exchanged between the source nodes or it may opt for a generalized analog network coding approach whereby it only demodulates the private messages destined for the relay's own sake while treating the messages to be exchanged between the source nodes as colored noise, subtracting the demodulated information from the overall received signal and then broadcasting the remaining part of the received signal. We compare how the two approaches fare when coupled with different multiple-input multiple-output (MIMO) detection techniques thus striking suitable trade-offs between performance and implementation complexity for the generalized multi-antenna two-way relaying channel under consideration.