Low Complexity Turbo SIC-MMSE Detection for Orthogonal Time Frequency Space Modulation

arXiv - CS - Information Theory Pub Date : 2024-01-19 DOI:arxiv-2401.11058

Qi Li, Jinhong Yuan, Min Qiu, Shuangyang Li, Yixuan Xie

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Abstract

Recently, orthogonal time frequency space (OTFS) modulation has garnered considerable attention due to its robustness against doubly-selective wireless channels. In this paper, we propose a low-complexity iterative successive interference cancellation based minimum mean squared error (SIC-MMSE) detection algorithm for zero-padded OTFS (ZP-OTFS) modulation. In the proposed algorithm, signals are detected based on layers processed by multiple SIC-MMSE linear filters for each sub-channel, with interference on the targeted signal layer being successively canceled either by hard or soft information. To reduce the complexity of computing individual layer filter coefficients, we also propose a novel filter coefficients recycling approach in place of generating the exact form of MMSE filter weights. Moreover, we design a joint detection and decoding algorithm for ZP-OTFS to enhance error performance. Compared to the conventional SIC-MMSE detection, our proposed algorithms outperform other linear detectors, e.g., maximal ratio combining (MRC), for ZP-OTFS with up to 3 dB gain while maintaining comparable computation complexity.

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用于正交时频空间调制的低复杂度 Turbo SIC-MMSE 检测

近来，正交时频空间（OTFS）调制因其对双选择无线信道的鲁棒性而受到广泛关注。在本文中，我们针对零填充 OTFS（ZP-OTFS）调制提出了一种低复杂度的基于最小均方误差（SIC-MMSE）的迭代连续干扰消除检测算法。在所提出的算法中，信号检测基于每个子信道的多个 SIC-MMSE 线性滤波器处理的层，目标信号层上的干扰通过硬信息或软信息被连续消除。为了降低计算单个层滤波器系数的复杂性，我们还提出了一种层滤波器系数循环方法，以代替生成 MMSE 滤波器权重的精确形式。此外，我们还为 ZP-OTFS 设计了联合检测和解码算法，以提高误差性能。与传统的 SIC-MMSE 检测相比，我们提出的算法在 ZP-OTFS 方面的性能优于其他线性检测器（如最大比组合（MRC）），增益高达 3dB，同时保持了相当的计算复杂度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - CS - Information Theory

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