Channel Equalization Based on Data Reuse LMS Algorithm for Shallow Water Acoustic Communication

机译：基于数据重用LMS算法的浅水声通信信道均衡

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In recent years, there has been increasing interest in the design of underwater acoustic modems for marine environmental monitoring, underwater structure inspection and sea bottom resource exploitation. As underwater acoustic channels pose difficulties such as multipath, time-space selectivity, frequency dependent noise, and Doppler shifts on transmission, research on adaptive equalizers play an important role in the design of underwater modems. This paper presents a data reuse least mean square (DR-LMS) algorithm to achieve equalization performance with low computational complexity to facilitate a practical hardware implementation. Experimental results obtained in physical shallow water channels demonstrate the effectiveness of the proposed method compared to classic LMS (Least mean square) and RLS (Recursive least square) algorithms.

机译：近年来，对用于海洋环境监测，水下结构检查和海底资源开发的水下声学调制解调器的设计越来越感兴趣。由于水下声信道带来了诸如多径，时空选择性，频率相关噪声以及传输中的多普勒频移等难题，因此对自适应均衡器的研究在水下调制解调器的设计中起着重要的作用。本文提出了一种数据重用最小均方（DR-LMS）算法，以较低的计算复杂度实现均衡性能，从而有助于实际的硬件实现。与经典的LMS（最小均方）和RLS（递归最小二乘）算法相比，在物理浅水通道中获得的实验结果证明了该方法的有效性。

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来源
《2010 IEEE International Conference on Sensor Networks, Ubiquitous, and Trustworthy Computing》|2010年|p.95-98|共4页
会议地点 Newport Beach CA(US);Newport Beach CA(US)
作者
Tong Feng; Benson Bridget; Li Ying; Kastner Ryan;
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原文格式 PDF
正文语种 eng
中图分类计算机网络;
关键词
LMS algorithm; Underwater acoustic communication; channel equalization; data reuse;

机译：LMS算法;水下声通信;信道均衡;数据重用;

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专利

1. Adaptive Equalizer Using Selective Partial Update Algorithm and Selective Regressor Affine Projection Algorithm over Shallow Water Acoustic Channels [J] . MasoumehSoflaei, PaeizAzmi Shock and vibration . 2014,第1期

机译：自适应均衡器采用选择性部分更新算法和在浅水声径上的选择性回归仿射投影算法
2. Improved proportionate FONLMS algorithm based direct adaptive Turbo equalization for MIMO underwater acoustic communications [J] . Zhuangchun Yang, Tianyi Liang, Zhourong Deng, MATEC Web of Conferences . 2019,第3期

机译：改进的基于比例FONLMS算法的MIMO水下声学通信直接自适应Turbo均衡
3. Frequency-domain channel estimation and equalization for shallow-water acoustic communications [J] . Yahong Rosa Zheng, Chengshan Xiao, T.C. Yang, Physical Communication . 2010,第1期

机译：浅水声通信的频域信道估计和均衡
4. Channel Equalization Based on Data Reuse LMS Algorithm for Shallow Water Acoustic Communication [C] . Tong Feng, Benson Bridget, Li Ying, IEEE International Conference on Sensor Networks, Ubiquitous, and Trustworthy Computing . 2010

机译：基于数据重用LMS算法的浅水声通信算法的信道均衡
5. Estimation of the scattering function of fading channels for acoustic communications in shallow waters. [D] . Allemand, Vincent. 2005

机译：浅水声通信衰落信道散射函数的估计。
6. Filtered Multitone Modulation Underwater Acoustic Communications Using Low-Complexity Channel-Estimation-Based MMSE Turbo Equalization [O] . Lin Sun, Mei Wang, Guoheng Zhang, 2019

机译：基于低复杂度信道估计的MMSE Turbo均衡的滤波多音调制水下声通信
7. Multichannel communication based on adaptive equalization in very shallow water acoustic channels [O] . TAN BIEN AIK 2007

机译：基于自适应均衡的非常浅水声信道中的多信道通信

Channel Equalization Based on Data Reuse LMS Algorithm for Shallow Water Acoustic Communication

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