Correlation-based ultrasound imaging of strong reflectors with phase coherence filtering

Two main metrics are usually employed to assess the quality of medical ultrasound (US) images, namely the contrast and the spatial resolution. A number of imaging algorithms have been proposed to improve one of those metrics, often at the expense of the other one. This paper presents the application...

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Published inUltrasonics Vol. 119; p. 106631
Main Authors Bilodeau, M., Quaegebeur, N., Berry, A., Masson, P.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.02.2022
Subjects
Algorithms
Correlation-based imaging
Excitelet
Image Enhancement - methods
Image Processing, Computer-Assisted - methods
Phase Coherence
Surgical Instruments
Transducers
Ultrasonic imaging
Ultrasonography - methods
Correlation-based imaging
Ultrasonic imaging
Phase Coherence
Excitelet
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Abstract Two main metrics are usually employed to assess the quality of medical ultrasound (US) images, namely the contrast and the spatial resolution. A number of imaging algorithms have been proposed to improve one of those metrics, often at the expense of the other one. This paper presents the application of a correlation-based ultrasound imaging method, called Excitelet, to medical US imaging applications and the inclusion of a new Phase Coherence (PC) metric within its formalism. The main idea behind this algorithm, originally developed and validated for Non-Destructive Testing (NDT) applications, is to correlate a reference signal database with the measured signals acquired from a transducer array. In this paper, it is shown that improved lateral resolutions and a reduction of imaging artifacts are obtained over the Synthetic Aperture Focusing Technique (SAFT) when using Excitelet in conjunction with a PC filter. This novel method shows potential for the imaging of specular reflectors, such as invasive surgical tools. Numerical and experimental results presented in this paper demonstrate the benefit, in terms of contrast and resolution, of using the Excitelet method combined with PC for the imaging of strong reflectors. •A new phase coherence filter is presented for improved contrasts.•The correlation-based algorithm Excitelet is applied to ultrasound medical imaging.•Excitelet outperforms the synthetic aperture method in terms of resolutions.•The correlation-based method is efficient for the imaging of surgical tools.
AbstractList Two main metrics are usually employed to assess the quality of medical ultrasound (US) images, namely the contrast and the spatial resolution. A number of imaging algorithms have been proposed to improve one of those metrics, often at the expense of the other one. This paper presents the application of a correlation-based ultrasound imaging method, called Excitelet, to medical US imaging applications and the inclusion of a new Phase Coherence (PC) metric within its formalism. The main idea behind this algorithm, originally developed and validated for Non-Destructive Testing (NDT) applications, is to correlate a reference signal database with the measured signals acquired from a transducer array. In this paper, it is shown that improved lateral resolutions and a reduction of imaging artifacts are obtained over the Synthetic Aperture Focusing Technique (SAFT) when using Excitelet in conjunction with a PC filter. This novel method shows potential for the imaging of specular reflectors, such as invasive surgical tools. Numerical and experimental results presented in this paper demonstrate the benefit, in terms of contrast and resolution, of using the Excitelet method combined with PC for the imaging of strong reflectors.
Two main metrics are usually employed to assess the quality of medical ultrasound (US) images, namely the contrast and the spatial resolution. A number of imaging algorithms have been proposed to improve one of those metrics, often at the expense of the other one. This paper presents the application of a correlation-based ultrasound imaging method, called Excitelet, to medical US imaging applications and the inclusion of a new Phase Coherence (PC) metric within its formalism. The main idea behind this algorithm, originally developed and validated for Non-Destructive Testing (NDT) applications, is to correlate a reference signal database with the measured signals acquired from a transducer array. In this paper, it is shown that improved lateral resolutions and a reduction of imaging artifacts are obtained over the Synthetic Aperture Focusing Technique (SAFT) when using Excitelet in conjunction with a PC filter. This novel method shows potential for the imaging of specular reflectors, such as invasive surgical tools. Numerical and experimental results presented in this paper demonstrate the benefit, in terms of contrast and resolution, of using the Excitelet method combined with PC for the imaging of strong reflectors. •A new phase coherence filter is presented for improved contrasts.•The correlation-based algorithm Excitelet is applied to ultrasound medical imaging.•Excitelet outperforms the synthetic aperture method in terms of resolutions.•The correlation-based method is efficient for the imaging of surgical tools.
ArticleNumber 106631
Author Berry, A.
Masson, P.
Bilodeau, M.
Quaegebeur, N.
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Keywords Correlation-based imaging
Ultrasonic imaging
Phase Coherence
Excitelet
Language English
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Snippet Two main metrics are usually employed to assess the quality of medical ultrasound (US) images, namely the contrast and the spatial resolution. A number of...
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StartPage 106631
SubjectTerms Algorithms
Correlation-based imaging
Excitelet
Image Enhancement - methods
Image Processing, Computer-Assisted - methods
Phase Coherence
Surgical Instruments
Transducers
Ultrasonic imaging
Ultrasonography - methods
Title Correlation-based ultrasound imaging of strong reflectors with phase coherence filtering
URI https://dx.doi.org/10.1016/j.ultras.2021.106631
https://www.ncbi.nlm.nih.gov/pubmed/34801835
https://search.proquest.com/docview/2600820754
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