Wavelet-Based FDTD and High Resolution Spectral Estimation for Calculation of Band Structures in Two-Dimensional Phononic Crystals

机译：基于小波的FDTD和高分辨率光谱估计，用于计算二维声子晶体中的带结构

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This paper discusses the wavelet-based Finite Difference Time Domain (FDTD) method and high resolution spectral estimation with a specific problem of sound wave propagation through phononic crystals. If the band structures of a phononic crystal are calculated by the traditional FDTD method combined with the fast Fourier transform (FFT), good estimation of the eigenfrequencies can only be ensured by the postprocessing of sufficiently long time series generated by a large number of FDTD iterations. In this paper, a postprocessing method based on the high-resolution spectral estimation via the Yule-Walker method is proposed to overcome the difficulty. Numerical simulation results for two-dimensional phononic crystal show that, the wavelet-based FDTD method improves the efficiency of the time stepping algorithm, and high resolution spectral estimation shows the advantages over the classic FFT-based postprocessing.

机译：本文讨论了基于小波的有限差分时域（FDTD）方法和高分辨率光谱估计，通过声波晶体的声波传播的特定问题。如果通过传统的FDTD方法计算声子晶体的频带结构与快速傅里叶变换（FFT）组合，则只能通过大量FDTD迭代产生的足够长的时间序列的后处理来确保良好估计特征频率。在本文中，提出了一种基于通过Yule-Walker方法的高分辨率频谱估计的后处理方法来克服难度。二维声子晶体的数值模拟结果表明，基于小波的FDTD方法提高了时间阶梯算法的效率，高分辨率频谱估计显示了基于经典的基于FFT的后处理的优势。

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《International Conference on Materials Engineering and Automatic Control》|2014年||共7页
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Zhizhong Yan;
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中图分类 TB3-53;
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Wavelet; Phononic crystal; Finite difference time domain; High resolution spectral estimation;

机译：小波;声晶;有限差分时域;高分辨率谱估计;

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专利

1. A postprocessing method based on high-resolution spectral estimation for FDTD calculation of phononic band structures [J] . Su XX, Li JB, Wang YS Physica, B. Condensed Matter . 2010,第10期

机译：基于高分辨率频谱估计的后处理方法，用于声子带结构的FDTD计算
2. Calculation of band structures for surface waves in two-dimensional phononic crystals with a wavelet-based method [J] . Zhi-Zhong Yan, Yue-Sheng Wang Physical review . 2008,第9期

机译：基于小波的二维声子晶体中表面波的能带结构计算
3. Band Structures Analysis Method of Two-Dimensional Phononic Crystals Using Wavelet-Based Elements [J] . Yongteng Zhong, Mao Liu, Jiawei Xiang Crystals . 2017,第11期

机译：基于小波基元的二维声子晶体的能带结构分析方法
4. Wavelet-Based FDTD and High Resolution Spectral Estimation for Calculation of Band Structures in Two-Dimensional Phononic Crystals [C] . Zhizhong Yan International Conference on Materials Engineering and Automatic Control . 2014

机译：基于小波的FDTD和高分辨率光谱估计，用于计算二维声子晶体中的带结构
5. Photonic band structure calculations for two-dimensional and three-dimensional photonic crystals. [D] . Morton, Aaron Vincent. 2002

机译：二维和三维光子晶体的光子能带结构计算。
6. Band Gaps and Transmission Characteristics Analysis on a Two-Dimensional Multiple-Scatter Phononic Crystal Structure [O] . Hang Xiang, Xingfu Ma, Jiawei Xiang 2020

机译：二维多散射声子晶体结构的带隙和传输特性分析
7. Band Structures Analysis Method of Two-Dimensional Phononic Crystals Using Wavelet-Based Elements [O] . Mao Liu, Jiawei Xiang, Yongteng Zhong 2017

机译：基于小波变换的二维声子晶体带结构分析方法

Wavelet-Based FDTD and High Resolution Spectral Estimation for Calculation of Band Structures in Two-Dimensional Phononic Crystals

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