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Volume 43 Issue 2
Feb.  2021
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Xiaorong JING, Jingjing WEN, Weijia LEI. Soft Output Signal Detection for Massive MIMO Systems Based on Chebyshev Trace Iteration[J]. Journal of Electronics & Information Technology, 2021, 43(2): 372-379. doi: 10.11999/JEIT191048
Citation: Xiaorong JING, Jingjing WEN, Weijia LEI. Soft Output Signal Detection for Massive MIMO Systems Based on Chebyshev Trace Iteration[J]. Journal of Electronics & Information Technology, 2021, 43(2): 372-379. doi: 10.11999/JEIT191048

Soft Output Signal Detection for Massive MIMO Systems Based on Chebyshev Trace Iteration

doi: 10.11999/JEIT191048
Funds:  The National Natural Science Foundation of China(61701062), Chongqing Research Program of Basic Research and Frontier Technology (cstc2019jcyj-msxmX0079)
  • Received Date: 2019-12-30
  • Rev Recd Date: 2020-05-05
  • Available Online: 2020-05-13
  • Publish Date: 2021-02-23
  • Minimum Mean Square Error (MMSE) algorithm can achieve near-optimal detection performance for multi-user massive Multiple Input Multiple Output (MIMO) systems. However, the calculation of the high-dimensional matrix inversion required in MMSE algorithm causes excessively high computational complexity, which makes it difficult to implement quickly and effectively in practical applications. At the same time, for the Higher Quadrature Amplitude Modulation (HQAM), the direct use of hard decision to realize the symbol-to-bit demapper will result in an obvious performance loss. Therefore, a low-complexity soft output signal detection algorithm based on Chebyshev-Trace Iteration (CTI) is proposed for Gray-coded HQAM in this paper. The algorithm not only effectively avoids the calculation of the high dimensional matrix inversion, but also gives a simplified calculation method with the trident list searching to compute the bit Log-Likelihood Ratio (LLR) by using the bit flip property of Gray-coded modulation and binary tree architecture. The simulation results show that the proposed soft output detection algorithm needs at most 3 iterations to converge and achieve detection performance close to MMSE, which achieves a good tradeoff between the complexity and the detection performance.

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