Fast and memory-efficient algorithms for computing quadratic time-frequency distributions

J.M. O Toole; B. Boashash

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Fast and memory-efficient algorithms for computing quadratic time-frequency distributions

机译：快速且高效存储的算法，用于计算二次时频分布

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Algorithms for computing time-frequency distributions (TFDs) limit computation time by reducing numerical operations. But these fast algorithms do not reduce the memory load. This article presents four TFD algorithms to minimise both the computation and memory loads. Each algorithm is optimised for a specific kernel category. Three algorithms reduce memory by computing an exact TFD without oversampling; the fourth algorithm, for the nonseparable kernel, reduces memory by computing a decimated TFD. The separable-kernel algorithm, using a biomedical signal as an example, computes an exact TFD with only 12% of the computation load and 1% of the memory required by conventional algorithms.

机译：用于计算时频分布（TFD）的算法通过减少数值运算来限制计算时间。但是这些快速算法不会减少内存负载。本文介绍了四种TFD算法，以最大程度地减少计算和内存负载。每种算法针对特定的内核类别进行了优化。三种算法通过计算精确的TFD而不会过采样来减少内存。对于不可分离的内核，第四种算法通过计算抽取的TFD减少内存。以生物医学信号为例的可分离内核算法仅使用常规算法所需的12％的计算负载和1％的内存即可计算出精确的TFD。

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《Applied and Computational Harmonic Analysis》 |2013年第2期|350-358|共9页
作者
J.M. O Toole; B. Boashash;
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作者单位

The University of Queensland, Centre for Clinical Research and Perinatal Research Centre, Royal Brisbane & Women's Hospital, Herston, QLD 4029,Australia;

The University of Queensland, Centre for Clinical Research and Perinatal Research Centre, Royal Brisbane & Women's Hospital, Herston, QLD 4029,Australia,College of Engineering, Qatar University, Doha, Qatar;

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正文语种 eng
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Algorithms; Computational efficiency; Fast Fourier transform; Nonstationary signals; Time-frequency analysis; Time-frequency distributions; Wigner-Ville distribution;

机译：算法;计算效率;快速傅立叶变换;非平稳信号;时频分析;时频分布;Wigner-Ville分布;

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专利

1. A fast algorithm for computing minimum cross-entropy positive time-frequency distributions [J] . Groutage D. IEEE Transactions on Signal Processing . 1997,第8期

机译：一种计算最小交叉熵正时频分布的快速算法
2. An automatic fast optimization of Quadratic Time-frequency Distribution using the hybrid genetic algorithm [J] . Abdul Awal, Boualem Boashash Signal processing . 2017,第feba期

机译：基于混合遗传算法的二次时频分布自动快速优化
3. Improving DOA Estimation Algorithms Using High-Resolution Quadratic Time-Frequency Distributions [J] . Samir Ouelha, Abdeldjalil Aïssa-El-Bey, Boualem Boashash IEEE Transactions on Signal Processing . 2017,第19期

机译：使用高分辨率二次时频分布改进DOA估计算法
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机译：选择二次时频分布的优化算法：性能结果和校准
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机译：时频分布：复杂性，算法和体系结构。
6. EEG-Based Emotion Recognition Using Quadratic Time-Frequency Distribution [O] . Rami Alazrai, Rasha Homoud, Hisham Alwanni, 2018

机译：基于二次时频分布的基于脑电图的情绪识别
7. An automatic fast optimization of Quadratic Time-frequency Distribution using the hybrid genetic algorithm [O] . Awal Md. Abdul, Boashash Boualem 2017

机译：基于混合遗传算法的二次时频分布自动快速优化
8. Distributions of Central Quadratic Forms in Normal Variables: A Comparison of Algorithms [R] . Williams, B. 1984

机译：正规变量中中心二次型的分布：算法比较

Fast and memory-efficient algorithms for computing quadratic time-frequency distributions

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