TR2013-062
On Probabilistic Data Association for Achieving Near-Exponential Diversity over Fading Channels
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- "On Probabilistic Data Association for Achieving Near-Exponential Diversity over Fading Channels", IEEE International Conference on Communications (ICC), June 2013.BibTeX TR2013-062 PDF
- @inproceedings{Yellepeddi2013jun,
- author = {Yellepeddi, A. and Kim, K.J. and Duan, C. and Orlik, P.},
- title = {On Probabilistic Data Association for Achieving Near-Exponential Diversity over Fading Channels},
- booktitle = {IEEE International Conference on Communications (ICC)},
- year = 2013,
- month = jun,
- url = {https://www.merl.com/publications/TR2013-062}
- }
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- "On Probabilistic Data Association for Achieving Near-Exponential Diversity over Fading Channels", IEEE International Conference on Communications (ICC), June 2013.
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MERL Contact:
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Research Area:
Abstract:
Machine-to-Machine (M2M) wireless communication requires the transmission of short blocks of data with high reliability over fading channels. We discuss the use of the probabilistic data association (PDA) detector in conjunction with precoding to design high-performance systems for these links. First, the performance of the traditional PDA algorithm with precoding over ideal Rayleigh fading links is analyzed, which provides insight into its performance, and evidence of an error floor at high SNRs. Then, a novel ordering mechanism is proposed that takes advantage of the precoder characteristics. It is shown by simulation that the proposed modified algorithm can achieve near-ML performance for block sizes as small as 32 symbols.
Related News & Events
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NEWS ICC 2013: 3 publications by Chunjie Duan, Philip V. Orlik, Kyeong Jin Kim and others Date: June 9, 2013
Where: IEEE International Conference on Communications (ICC)
MERL Contact: Philip V. OrlikBrief- The papers "Cognitive Multihop Networks in Spectrum Sharing Environment with Multiple Licensed Users" by Kim, K.J., Duong, T.Q., Tsiftsis, T.A. and Bao, V.N.Q., "Opportunistic Relaying for Cognitive Network with Multiple Primary Users over Nakagami-m Fading" by Duong, T.Q., Kim, K.J., Zepernick, H-J and Tellambura, C. and "On Probabilistic Data Association for Achieving Near-Exponential Diversity over Fading Channels" by Yellepeddi, A., Kim, K.J., Duan, C. and Orlik, P. were presented at the IEEE International Conference on Communications (ICC).