Eunhye Nam, Namjeong Lee, Keonkook Lee, Joonhyuk Kang, Youngok Kim
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引用次数: 0
摘要
坐标交错正交设计空时分组码(STBC-CIOD)被认为是一种有效的传输分集方案,可以在较低的译码复杂度下实现全速率和全分集。STBC-CIOD的简单最大似然解码器(simple maximum likelihood, SML)是公认的时不变信道下的最佳解码器。然而,当信道时变时,SML解码器的性能不可避免地会下降。在本文中,我们提出了一种计算效率高的近最优STBC-CIOD解码算法,以减轻信道时间选择性引起的干扰。该算法首先建立部分候选序列,并通过度量比较在序列中迭代找到最优序列。仿真结果表明,该解码器的性能优于SML解码器,且复杂度显著降低,性能接近最优。
Iterative near-optimal decoder for STBC from CIOD over time-varying channel
Space-time block code from coordinate interleaved orthogonal design (STBC-CIOD) is considered as an effective transmit diversity scheme for achieving full-rate and full-diversity with low decoding complexity. The simple maximum likelihood (SML) decoder for STBC-CIOD is known to be an optimal decoder in time-invariant channel. However, the performance of the SML decoder is inevitably degraded when the channel becomes time-varying. In this paper, we propose a computationally efficient near-optimal decoding algorithm for STBC-CIOD to mitigate the interference caused by time-selectivity of the channel. The algorithm establishes partial candidate sequences and iteratively finds the best sequence among the sequences through metric comparison. Simulation results show that the proposed decoder outperforms the SML decoder and achieves near-optimal performance with significantly low complexity.
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