Title :
A parallel collaborative sphere decoder for a MIMO communication system
Author :
Jihun Koo ; Soo-Yong Kim ; Jaeseok Kim
Author_Institution :
Syst. LSI Bus., Samsung Electron., Yongin, South Korea
Abstract :
In this paper, we propose a parallel collaborative sphere decoder with a scalable architecture promising quasi-maximum likelyhood performance with a relatively small amount of computational resources. This design offers a hardware-friendly algorithm using a modified node operation through fixing the variable complexity of the critical path caused by the sequential nature of the conventional sphere decoder (SD). It also reduces the computational complexity compared to the fixed-complexity sphere decoder (FSD) algorithm by tree pruning using collaboratively operated node operators. A Monte Carlo simulation shows that our proposed design can be implemented using only half the parallel operators compared to the approach using an ideal fully parallel scheme such as FSD, with only about a 7% increase of the normalized decoding time for MIMO dimensions of 16×16 with 16-QAM modulation.
Keywords :
MIMO communication; Monte Carlo methods; maximum likelihood decoding; quadrature amplitude modulation; 16-QAM modulation; FSD algorithm; MIMO communication system; Monte Carlo simulation; computational resources; critical path; fixed-complexity sphere decoder algorithm; hardware-friendly algorithm; modified node operation; parallel collaborative sphere decoder; parallel operators; quasimaximum likelyhood performance; variable complexity; Computational complexity; MIMO; Maximum likelihood decoding; Resource management; Vectors; Fixed-complexity sphere decoder (FSD); Schnorr-Euchner (SE) sphere decoder; multiple-input multiple-output (MIMO); sphere decoder (SD); wireless communication;
Journal_Title :
Communications and Networks, Journal of
DOI :
10.1109/JCN.2014.000108
