A robust super-resolution approach with sparsity constraint in acoustic imaging

Chu, Ning; Picheral, José; Mohammad-Djafari, Ali; Gac, Nicolas

doi:10.1016/j.apacoust.2013.08.007

Cited by 59 publications

(26 citation statements)

References 35 publications

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“…Here are a set of main references related to this tutorial: [4], [5], [6], [7], [8], [9], [10], [11], [12] …”

Section: State Of the Art Bayesian Methodsmentioning

confidence: 99%

Inverse problems in imaging science: from classical regularization methods to state of the art Bayesian methods

Mohammad-Djafari

2014

International Image Processing, Applications and Systems Conference

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Inverses problems arise in almost all the engineering and applied sciences where we have indirect measurement. Many classical signal and image processing research subjects are directly expressed as inverse problems: signal deconvolution, image restoration, image reconstruction in many imaging systems such as X ray Tomography, Microwave and Ultrasound imaging, Synthetic aperture radar (SAR), etc. In this tutorial, first we express in a unifying approach all these applications in a common mathematical framework. Then, mentioning the ill-posed nature of these inverse problems, we describe the regularization methods which were very successful during 1960-2000. Mentioning the limitations of these methods, we see how the Bayesian approach can give tools to go beyond these difficulties. In particular, we will see how this approach can be useful to account for many different a priori knowledges: smoothness, positivity, piecewise continuity, sparsity, finite number of materials (compact homogeneous regions), etc. We also discuss the computational aspects of the Bayesian approach and the practical implementations of the proposed algorithms.

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“…Here are a set of main references related to this tutorial: [4], [5], [6], [7], [8], [9], [10], [11], [12] …”

Section: State Of the Art Bayesian Methodsmentioning

confidence: 99%

Inverse problems in imaging science: from classical regularization methods to state of the art Bayesian methods

Mohammad-Djafari

2014

International Image Processing, Applications and Systems Conference

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“…Array-based beamforming has become an indispensable acoustic source identification technology in some industries such as aviation aircraft, [1][2][3][4] rail train, 5 wind turbine, [6][7][8][9] mining industry, 10 and automobile [11][12][13] over decades. Conventional beamforming (CB) has the advantages of fast measurement speed, high computational efficiency, and suitable for medium-to-long distance measurement.…”

Section: Introductionmentioning

confidence: 99%

A novel Fourier-based deconvolution algorithm with improved efficiency and convergence

Shen

Chu

Zhang

et al. 2019

Journal of Low Frequency Noise, Vibration and Active Control

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Various deconvolution algorithms for acoustic source are developed to improve spatial resolution and suppress sidelobe of the conventional beamforming. To improve the computational efficiency and solution convergence of deconvolution, this paper proposes a Fourier-based improved fast iterative shrinkage thresholding algorithm. Simulations and experiments show that Fourier-based improved fast iterative shrinkage thresholding algorithm can achieve excellent acoustic identification performance, with high computational efficiency and good convergence. For Fourier-based improved fast iterative shrinkage thresholding algorithm, the larger the weight coefficient, the narrower the mainlobe width, and the better the convergence, but the spurious source also increases. The recommended weight coefficient for the array described herein is 3. In addition, like other Fourier-based deconvolution algorithms, Fourier-based improved fast iterative shrinkage thresholding algorithm using irregular focus grid can obtain better acoustic source identification performance than using the conventional regular focus grid.

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“…To realize ultrasonic testing without the use of water, several techniques, e.g., the air-coupled capacitance transducer (Schindel, et al, 1995), (Alvarez-Arenas, et al, 2012), (Gan, et al, 2003), , (Robertson, et al, 2002) and (Oralkan, et al, 2003), the electromagnetic acoustic transducer (Houck, et al, 1967), (Ludwig, et al, 1993), (Ogi, et al, 1995) and (Ogi, et al, 2001), laser ultrasound (White, 1963), (Rose, 1984), (Liu, et al, 2002), (Green, 2004) and (Arias and Achenbach, 2004), and microphone array (Chu, et al, 2014), (Rigelsford and Tennant, 2006) and (Brandes and Benson, 2007), have been proposed. Several megahertz broadband ultrasound can be transmitted and received by the aircoupled capacitance transducer (Alvarez-Arenas, et al, 2012) and the electromagnetic acoustic transducer (Ogi, et al, 1995), and this type of transducers are applicable for inspection of high temperature objects (Gan, et al, 2003).…”

Section: Dry-contact Ultrasonic Technique 31 Overviewmentioning

confidence: 99%

Theory and applications of high frequency broadband ultrasound via a thin layer in contact with a solid

Tohmyoh

2015

Mechanical Engineering Reviews

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A robust super-resolution approach with sparsity constraint in acoustic imaging

Cited by 59 publications

References 35 publications

Inverse problems in imaging science: from classical regularization methods to state of the art Bayesian methods

Inverse problems in imaging science: from classical regularization methods to state of the art Bayesian methods

A novel Fourier-based deconvolution algorithm with improved efficiency and convergence

Theory and applications of high frequency broadband ultrasound via a thin layer in contact with a solid

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