基于递归非二次自适应算法的决策导向信道均衡器方案

2023 International Conference on Advances in Electronics, Control and Communication Systems (ICAECCS) Pub Date : 2023-03-06 DOI:10.1109/ICAECCS56710.2023.10104525

Fatima Lounoughi, M. Djendi

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引用次数: 0

摘要

提出了一种适用于高级无线通信系统接收机的自适应决策定向均衡器(DDE)。该方法基于在具有训练序列的DDE系统中使用递归非二次(RNQ)自适应算法，新算法记为DDE-RNQ。所提出的DDE-RNQ均衡器即使在信道中存在强噪声成分时也能在不同情况下获得更好的性能。在DDERNQ中，均衡器输出与决策电路之间的非二次距离准则取代了均方根误差(MSE)距离来计算支路度量。与传统的基于DDE的归一化最小均方(DDE- nlms)均衡器相比，本文提出的DDE- rnq在MSE方面比原始DDE- nlms均衡器具有更好的速度收敛和残差性能。

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Decision-Directed Channel Equalizer Scheme Based on the Recursive Non Quadratic Adaptive Algorithm

This paper presents a new adaptive decision directed equalizer (DDE) for the receivers of Advanced Wireless communication systems. The proposed approach is based on the use of a recursive non quadratic (RNQ) adaptive algorithm in a DDE system with a training sequence, the new algorithm is denoted DDE-RNQ. The proposed DDE-RNQ equalizer achieves better performances in different situations even when strong noise components are present in the channel. In the proposed DDERNQ, the non quadratic distance criterion between the equalizer output and the decision circuit is used rather than the squared mean square error (MSE) distance for the computation of the branch metrics. Compared to the conventional DDE based normalized least mean square (DDE-NLMS) equalizer, the proposed DDE-RNQ shows superior performances of speed convergence and residual error versus the original DDE-NLMS equalizer in terms of MSE.

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来源期刊

2023 International Conference on Advances in Electronics, Control and Communication Systems (ICAECCS)

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