Title :
Convolutional Codes in Two-Way Relay Networks with Physical-Layer Network Coding
Author :
To, Duc ; Choi, Jinho
Author_Institution :
Sch. of Eng., Swansea Univ., Swansea, UK
fDate :
9/1/2010 12:00:00 AM
Abstract :
We study the application of convolutional codes to two-way relay networks (TWRNs) with physical-layer network coding (PNC). When a relay node decodes coded signals transmitted by two source nodes simultaneously, we show that the Viterbi algorithm (VA) can be used by approximating the maximum likelihood (ML) decoding for XORed messages as two-user decoding. In this setup, for given memory length constraint, the two source nodes can choose the same convolutional code that has the largest free distance in order to maximize the performance. Motivated from the fact that the relay node only needs to decode XORed messages, a low complexity decoding scheme is proposed using a reduced-state trellis. We show that the reduced-state decoding can achieve the same diversity gain as the full-state decoding for fading channels.
Keywords :
Viterbi decoding; convolutional codes; diversity reception; fading channels; maximum likelihood decoding; network coding; trellis codes; Viterbi algorithm; XORed messages; convolutional codes; diversity gain; fading channels; low complexity decoding; maximum likelihood decoding; physical-layer network coding; reduced-state trellis; relay node decode; source nodes; two-user decoding; two-way relay networks; Broadcasting; Complexity theory; Convolutional codes; Diversity methods; Fading; Hamming distance; Joints; Maximum likelihood decoding; Memory management; Network coding; Protocols; Relays; Viterbi algorithm; Two-way relay network; Viterbi algorithm; convolutional code; multiple access channel; physical-layer network coding (PNC);
Journal_Title :
Wireless Communications, IEEE Transactions on
DOI :
10.1109/TWC.2010.072110.100138
