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Literature DB >> 29986922

Analysis of time-varying signals using continuous wavelet and synchrosqueezed transforms.

Jean Baptiste Tary¹, Roberto Henry Herrera², Mirko van der Baan².

Abstract

The continuous wavelet transform (CWT) has played a key role in the analysis of time-frequency information in many different fields of science and engineering. It builds on the classical short-time Fourier transform but allows for variable time-frequency resolution. Yet, interpretation of the resulting spectral decomposition is often hindered by smearing and leakage of individual frequency components. Computation of instantaneous frequencies, combined by frequency reassignment, may then be applied by highly localized techniques, such as the synchrosqueezing transform and ConceFT, in order to reduce these effects. In this paper, we present the synchrosqueezing transform together with the CWT and illustrate their relative performances using four signals from different fields, namely the LIGO signal showing gravitational waves, a 'FanQuake' signal displaying observed vibrations during an American football game, a seismic recording of the Mw 8.2 Chiapas earthquake, Mexico, of 8 September 2017, followed by the Irma hurricane, and a volcano-seismic signal recorded at the Popocatépetl volcano showing a tremor followed by harmonic resonances. These examples illustrate how high-localization techniques improve analysis of the time-frequency information of time-varying signals.This article is part of the theme issue 'Redundancy rules: the continuous wavelet transform comes of age'.

Entities: Disease

Keywords: ConceFT; signal decomposition; spectralanalysis; synchrosqueezing transform; wavelet transform

Year: 2018 PMID： 29986922 PMCID： PMC6048578 DOI： 10.1098/rsta.2017.0254

Source DB: PubMed Journal: Philos Trans A Math Phys Eng Sci ISSN： 1364-503X Impact factor: 4.226

5 in total

1. Gravitational-radiation damping of compact binary systems to second post-Newtonian order.

Authors:
Journal: Phys Rev Lett Date: 1995-05-01 Impact factor: 9.161

2. Observation of Gravitational Waves from a Binary Black Hole Merger.

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S R Morriss; K Mossavi; B Mours; C M Mow-Lowry; C L Mueller; G Mueller; A W Muir; Arunava Mukherjee; D Mukherjee; S Mukherjee; N Mukund; A Mullavey; J Munch; D J Murphy; P G Murray; A Mytidis; I Nardecchia; L Naticchioni; R K Nayak; V Necula; K Nedkova; G Nelemans; M Neri; A Neunzert; G Newton; T T Nguyen; A B Nielsen; S Nissanke; A Nitz; F Nocera; D Nolting; M E N Normandin; L K Nuttall; J Oberling; E Ochsner; J O'Dell; E Oelker; G H Ogin; J J Oh; S H Oh; F Ohme; M Oliver; P Oppermann; Richard J Oram; B O'Reilly; R O'Shaughnessy; C D Ott; D J Ottaway; R S Ottens; H Overmier; B J Owen; A Pai; S A Pai; J R Palamos; O Palashov; C Palomba; A Pal-Singh; H Pan; Y Pan; C Pankow; F Pannarale; B C Pant; F Paoletti; A Paoli; M A Papa; H R Paris; W Parker; D Pascucci; A Pasqualetti; R Passaquieti; D Passuello; B Patricelli; Z Patrick; B L Pearlstone; M Pedraza; R Pedurand; L Pekowsky; A Pele; S Penn; A Perreca; H P Pfeiffer; M Phelps; O Piccinni; M Pichot; M Pickenpack; F Piergiovanni; V Pierro; 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A R Williamson; J L Willis; B Willke; M H Wimmer; L Winkelmann; W Winkler; C C Wipf; A G Wiseman; H Wittel; G Woan; J Worden; J L Wright; G Wu; J Yablon; I Yakushin; W Yam; H Yamamoto; C C Yancey; M J Yap; H Yu; M Yvert; A Zadrożny; L Zangrando; M Zanolin; J-P Zendri; M Zevin; F Zhang; L Zhang; M Zhang; Y Zhang; C Zhao; M Zhou; Z Zhou; X J Zhu; M E Zucker; S E Zuraw; J Zweizig
Journal: Phys Rev Lett Date: 2016-02-11 Impact factor: 9.161

3. ConceFT: concentration of frequency and time via a multitapered synchrosqueezed transform.

Authors: Ingrid Daubechies; Yi Grace Wang; Hau-tieng Wu
Journal: Philos Trans A Math Phys Eng Sci Date: 2016-04-13 Impact factor: 4.226

4. Optimizing Estimates of Instantaneous Heart Rate from Pulse Wave Signals with the Synchrosqueezing Transform.

Authors: Hau-Tieng Wu; Gregory F Lewis; Maria I Davila; Ingrid Daubechies; Stephen W Porges
Journal: Methods Inf Med Date: 2016-09-14 Impact factor: 2.176

5. Evaluating physiological dynamics via synchrosqueezing: prediction of ventilator weaning.

Authors: Hau-Tieng Wu; Shu-Shua Hseu; Mauo-Ying Bien; Yu Ru Kou; Ingrid Daubechies
Journal: IEEE Trans Biomed Eng Date: 2013-11-04 Impact factor: 4.538

5 in total

7 in total

1. Introduction to redundancy rules: the continuous wavelet transform comes of age.

Authors: Paul S Addison
Journal: Philos Trans A Math Phys Eng Sci Date: 2018-08-13 Impact factor: 4.226

2. Coordinated activities of retrosplenial ensembles during resting-state encode spatial landmarks.

Authors: HaoRan Chang; Ingrid M Esteves; Adam R Neumann; Jianjun Sun; Majid H Mohajerani; Bruce L McNaughton
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2020-04-06 Impact factor: 6.237

3. Deep Learning Classification of Breast Cancer Tissue from Terahertz Imaging Through Wavelet Synchro-Squeezed Transformation and Transfer Learning.

Authors: Haoyan Liu; Nagma Vohra; Keith Bailey; Magda El-Shenawee; Alexander H Nelson
Journal: J Infrared Millim Terahertz Waves Date: 2022-01 Impact factor: 2.647

Analysis of time-varying signals using continuous wavelet and synchrosqueezed transforms.

1. Gravitational-radiation damping of compact binary systems to second post-Newtonian order.

2. Observation of Gravitational Waves from a Binary Black Hole Merger.

3. ConceFT: concentration of frequency and time via a multitapered synchrosqueezed transform.

4. Optimizing Estimates of Instantaneous Heart Rate from Pulse Wave Signals with the Synchrosqueezing Transform.

5. Evaluating physiological dynamics via synchrosqueezing: prediction of ventilator weaning.

1. Introduction to redundancy rules: the continuous wavelet transform comes of age.

2. Coordinated activities of retrosplenial ensembles during resting-state encode spatial landmarks.

3. Deep Learning Classification of Breast Cancer Tissue from Terahertz Imaging Through Wavelet Synchro-Squeezed Transformation and Transfer Learning.

4. Windowed multiscale synchrony: modeling time-varying and scale-localized interpersonal coordination dynamics.

5. A Hybrid Approach for Noise Reduction in Acoustic Signal of Machining Process Using Neural Networks and ARMA Model.

6. Data acquisition and imaging using wavelet transform: a new path for high speed transient force microscopy.

7. Deep Learning for Chondrogenic Tumor Classification through Wavelet Transform of Raman Spectra.