Title :
Low-complexity MIMO detection: A mixture of ZF, ML and SIC
Author :
Yinman Lee ; Hou-Cheng Shih ; Chong-Sheng Huang ; Jyong-Yi Li
Author_Institution :
Dept. of Electr. Eng., Nat. Chi Nan Univ., Puli, Taiwan
Abstract :
For multiple-input multiple-output (MIMO) spatial multiplexing systems, it is known that the maximum likelihood (ML) detector can achieve the optimal error-rate performance at the cost of high computational complexity, while the zero-forcing (ZF) detector and its variation with successive interference cancelation (SIC) attain low complexity with degraded performance. In this paper, we propose a new low-complexity MIMO detector which smartly includes ZF, ML and SIC for processing. The required computational complexity of this special mixture can be lower than that of the ordered SIC-ZF method in many cases. Importantly, simulation results show that this proposed low-complexity detector can significantly outperform the ordered SIC-ZF method in terms of the bit-error rate (BER), and own a diversity gain quite similar to that of the ML detector.
Keywords :
MIMO communication; computational complexity; error statistics; interference suppression; maximum likelihood detection; space division multiplexing; BER; ML detector; SIC; ZF detector; bit-error rate; high computational complexity; low-complexity MIMO detection; maximum likelihood detector; multiple-input multiple-output spatial multiplexing systems; optimal error-rate performance; successive interference cancellation; zero-forcing detector; Bit error rate; Computational complexity; Detectors; Digital signal processing; MIMO; Silicon carbide; Vectors; Multiple-input multiple-output (MIMO); maximum-likelihood (ML) detection; spatial multiplexing; successive interference cancelation (SIC); zero-forcing (ZF) detection;
Conference_Titel :
Digital Signal Processing (DSP), 2014 19th International Conference on
Conference_Location :
Hong Kong
DOI :
10.1109/ICDSP.2014.6900841
