Title :
A Case for Amplify–Forward Relaying in the Block-Fading Multiple-Access Channel
Author :
Chen, Deqiang ; Azarian, Kambiz ; Laneman, J. Nicholas
Author_Institution :
Dept. of Electr. Eng., Univ. of Notre Dame, Notre Dame, IN
Abstract :
This correspondence demonstrates the significant gains that multiple-access users can achieve from sharing a single amplify-forward relay in slow-fading environments. The proposed protocol, namely, multiple-access amplify-forward (MAF), allows for a low-complexity relay and achieves the optimal diversity-multiplexing tradeoff (DMT) at high multiplexing gains. Analysis of the protocol further reveals that it outperforms both the compress-forward strategy at low multiplexing gains and the dynamic decode-forward protocol at high multiplexing gains. An interesting feature of the proposed protocol is that, at high multiplexing gains, it resembles a multiple-input single-output (MISO) system, and at low multiplexing gains, it provides each user with the same DMT as if there were no contention for the relay from the other users.
Keywords :
fading channels; multiplexing; protocols; radio networks; amplify-forward relaying; block-fading multiple-access channel; compress-forward strategy; multiple-access users; multiple-input single-output system; namic decode-forward protocol; optimal diversity-multiplexing tradeoff; wireless networks; Bandwidth; Costs; Decoding; Delay; Intelligent networks; OFDM modulation; Protocols; Receiving antennas; Relays; Wireless networks; Amplify–forward; block-fading channel; cooperative diversity; diversity–multiplexing tradeoff (DMT); multiple-access relay channel (MARK); wireless networks;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2008.926336
