Low-complexity SIC-MMSE for joint multiple-input multiple-output detection

被引:0
|
作者
F. C. Kamaha Ngayahala
S. Ahmed
D. M. Saqib Bhatti
N. Saeed
N. A. Kaimkhani
M. Rasheed
机构
[1] Electronics and Information Engineering Chonbuk University,
[2] Republic of Korea,undefined
[3] Computer and Telecommunication Engineering Dawood University of Engineering and Technology,undefined
[4] Islamic Republic of Pakistan,undefined
[5] Department of Computer Science Iqra National University,undefined
[6] Islamic Republic of Pakistan,undefined
[7] Electrical Engineering Bahria University of Engineering and Technology,undefined
[8] Islamic Republic of Pakistan,undefined
来源
Journal of Communications Technology and Electronics | 2017年 / 62卷
关键词
multiple-input multiple-output (MIMO); minimum mean squared-error (MMSE); iterative detection and decoding; soft detection;
D O I
暂无
中图分类号
学科分类号
摘要
Iterative detection and decoding based on a soft interference cancellation–minimum mean squared error (SIC-MMSE) scheme provides efficient performance for coded MIMO systems. The critical computational burden for a SIC-MMSE detector in a MIMO system lies in the multiple inverse operations of the complex matrix. In this paper, we present a new method to reduce the complexity of the SIC-MMSE scheme based on a MIMO detection scheme that uses a single universal matrix with a non-layer-dependent inversion process. We apply the Taylor series expansion approach and derive a simple non-layer-dependent inverse matrix. The simulation results reveal that the utilization of the universal matrices presented in this paper produces almost the same performance as the conventional SIC-MMSE scheme but with low computational complexity.
引用
收藏
页码:1248 / 1254
页数:6
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