Skywave delay estimation in Enhanced Loran based on Extended Invariance Principle Weighted Fourier transform and Relaxation algorithm

Zhang Kai; Wan Guobin; Li MinChao; Xi Xiaoli

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Skywave delay estimation in Enhanced Loran based on Extended Invariance Principle Weighted Fourier transform and Relaxation algorithm

机译：基于扩展不变原理加权傅里叶变换和松弛算法的增强罗兰天波延迟估计

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摘要

A high precision algorithm is proposed to estimate the Enhanced Loran skywave delay, which is based on an Extended Invariance Principle Weighted Fourier transform and Relaxation (EXIP-WRELAX) algorithm. It is an innovation on the application of the skywave interference estimation algorithm in the Enhanced Loran receiver. Compared with existing algorithms, this algorithm has higher accuracy and lower computational complexity. Simulation results show that the proposed algorithm reduces the estimated error accuracy from similar to 1000 to 50 m. At the same time, accurate search over the entire frequency domain is avoided, which greatly reduces the computational complexity. The algorithm is also proved by the off-air data.

机译：提出了一种基于扩展不变原理加权傅立叶变换和松弛（EXIP-WRELAX）算法的增强罗兰天波延迟估计高精度算法。这是对天波干扰估计算法在增强型Loran接收机中的应用的一项创新。与现有算法相比，该算法具有较高的精度和较低的计算复杂度。仿真结果表明，该算法将估计的误差精度从相似的1000 m降低到50 m。同时，避免了在整个频域上的精确搜索，这大大降低了计算复杂度。该算法也得到了空中数据的证明。

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来源
《Radar, Sonar & Navigation, IET》 |2019年第8期|1344-1349|共6页
作者
Zhang Kai; Wan Guobin; Li MinChao; Xi Xiaoli;
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作者单位

Northwestern Polytech Univ Sch Elect & Informat Xian Shaanxi Peoples R China;

Xian Univ Technol Inst Adv Nav & Electromagnet Xian Shaanxi Peoples R China;

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原文格式 PDF
正文语种 eng
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关键词
fast Fourier transforms; radionavigation; computational complexity; direction-of-arrival estimation; delay estimation; radio receivers; interference suppression; Fourier transforms; Extended Invariance Principle Weighted Fourier; high precision algorithm; Enhanced Loran skywave delay; skywave interference estimation algorithm; Enhanced Loran receiver; existing algorithms; estimated error accuracy; skywave delay estimation; size 50; 0 m to 1000; 0 m;

机译：快速傅立叶变换;无线电导航计算复杂度;到达方向估计;延迟估计;无线电接收机;干扰抑制;傅立叶变换;扩展不变原理加权傅立叶;高精度算法;增强了罗兰天波延迟;天波干扰估计算法;增强型Loran接收器;现有算法;估计的错误准确性;天波延迟估计;尺寸50;0 m至1000;0米;
入库时间 2022-08-18 04:36:58

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专利

1. Enhanced Loran skywave delay estimation based on artificial neural network in low SNR environment [J] . Radar, Sonar & Navigation, IET . 2020,第1期

机译：低信噪比环境下基于人工神经网络的增强罗兰天波时延估计。
2. Loran-C skywave delay estimation using hybrid-WRELAX algorithm [J] . Kai Zhang, Guobin Wan, Yurong Pu, Electronics Letters . 2017,第21期

机译：基于混合WRELAX算法的Loran-C天波延迟估计
3. Loran-C skywave delay estimation using the AR algorithm [J] . Mohammed A., Last D. Electronics Letters . 1998,第23期

机译：使用AR算法的Loran-C天波延迟估计
4. Loran-C Skywave Delay Estimation using Improved ESPRIT Techniques [C] . Xiong Wei, Hu Yonghui, Liang Qing The 4th International Conference on Wireless Communications, Networking and Mobile Computing（第四届IEEE无线通信、网络技术及移动计算国际会议）论文集 . 2008

机译：使用改进的ESPRIT技术的Loran-C天波延迟估计
5. Matrix and Tensor-based ESPRIT Algorithm for Joint Angle and Delay Estimation in 2D Active Broadband Massive MIMO Systems AND Analysis of Direction of Arrival Estimation Algorithms for Basal Ice Sheet Tomography [D] . Zhu, Yi 2014

机译：基于矩阵和张量的ESPRIT算法在二维有源宽带大规模MIMO系统中的联合角和时延估计以及基础冰盖层析成像的到达方向估计算法分析
6. Skull Sex Estimation Based on Wavelet Transform and Fourier Transform [O] . Wen Yang, Mingquan Zhou, Pengfei Zhang, 2020

机译：基于小波变换和傅立叶变换的头骨性别估计
7. Loran-C Skywave Delay Detection using the ARMA Algorithm [O] . Mohammed, Abbas, Last, David 1998

机译：使用ARMA算法的Loran-C天波延迟检测

Skywave delay estimation in Enhanced Loran based on Extended Invariance Principle Weighted Fourier transform and Relaxation algorithm

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