Title :
Channel-adaptive complex K-best MIMO detection using lattice reduction
Author :
Sheikh, Farhana ; Szabo-Wexler, Elias ; Rahman, Mosaddequr ; Wang, W. ; Alexandrov, Borislav ; Yoon, Daekeun ; Chun, Anthony ; Alavi, Hossein
Author_Institution :
Intel Labs., Hillsboro, OR, USA
Abstract :
Lattice reduction (LR) aided detectors mitigate the exponentially increasing complexity of large multiple-input, multiple-output (MIMO) systems while achieving near-optimal performance with low computational complexity. In this paper, a channel-adaptive complex-domain LR-aided K-best MIMO detector is presented that reduces the gap between the K-best sphere decoding (SD) detector and the maximum likelihood (ML) optimal MIMO detector. While maintaining BER performance, computational complexity is reduced by 50% over a conventional complex domain K-best SD detector by implementing a new on-demand complex-domain candidate symbol selection algorithm. Two tunable variables in the candidate selection process are introduced to enable both coarse-grained and fine-grained adaptation of computational complexity to channel conditions.
Keywords :
MIMO communication; computational complexity; error statistics; maximum likelihood decoding; BER performance; K-best sphere decoding; LR aided detectors; channel-adaptive complex K-best MIMO detection; computational complexity; lattice reduction; maximum likelihood optimal MIMO detector; multiple-input multiple-output systems; on-demand complex-domain candidate symbol selection algorithm; Bit error rate; Computational complexity; Detectors; Lattices; MIMO; Vectors; Complex K-best detectors; IEEE 802.11ac; IEEE 802.11n; K-best algorithm; LTE systems; SE enumeration; lattice reduction; multiple-input multiple-output (MIMO) detector;
Conference_Titel :
Signal Processing Systems (SiPS), 2014 IEEE Workshop on
Conference_Location :
Belfast
DOI :
10.1109/SiPS.2014.6986064
