Transducer Geometry Imperfection Compensation

Borislav Gueorguiev Tomov; Mudabbir Tufail Bhatti; Billy Yiu; Søren Elmin Diederichsen; Erik Vilain Thomsen; Jørgen Arendt Jensen

Transducer Geometry Imperfection Compensation

Borislav Gueorguiev Tomov, Mudabbir Tufail Bhatti, Billy Yiu, Søren Elmin Diederichsen, Erik Vilain Thomsen, Jørgen Arendt Jensen

Research output: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

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Abstract

Multi-element ultrasound arrays are not always perfect, especially when produced using experimental technology. Element variability leads to deterioration of image quality, which prevents a fair comparison to more established transducer manufacturing technologies. This paper presents an approach to compensate for the geometric (Zaxis) imperfections of a transducer, relying on the characterization results of its individual elements. It is hypothesized that compensating for the geometric imperfection of the transducer can significantly improve the ultrasound image quality. The potential of the approach is evaluated through image quality comparison using a commercial transducer, an experimental transducer, and a multi-wire phantom. For a wire at 75 mm depth, the lateral width of a wire image is reduced from 7.4 λ to 3.1 λ, and the cystic contrast (r = 2.5λ) is improved from -21.4 dB to -31.1 dB.

Original language	English
Title of host publication	Proceedings of SPIE
Number of pages	7
Publisher	SPIE - International Society for Optical Engineering
Publication status	Accepted/In press - 2025
Event	SPIE Medical Imaging 2025 - San Diego, United States Duration: 16 Feb 2025 → 20 Feb 2025

Conference

Conference	SPIE Medical Imaging 2025
Country/Territory	United States
City	San Diego
Period	16/02/2025 → 20/02/2025

Keywords

Ultrasound
Imaging
Beamforming
Transducer
Imperfection
Correction
Calibration

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@inproceedings{6bcc1da15a33452689351d226a8f93ba,

title = "Transducer Geometry Imperfection Compensation",

abstract = "Multi-element ultrasound arrays are not always perfect, especially when produced using experimental technology. Element variability leads to deterioration of image quality, which prevents a fair comparison to more established transducer manufacturing technologies. This paper presents an approach to compensate for the geometric (Zaxis) imperfections of a transducer, relying on the characterization results of its individual elements. It is hypothesized that compensating for the geometric imperfection of the transducer can significantly improve the ultrasound image quality. The potential of the approach is evaluated through image quality comparison using a commercial transducer, an experimental transducer, and a multi-wire phantom. For a wire at 75 mm depth, the lateral width of a wire image is reduced from 7.4 λ to 3.1 λ, and the cystic contrast (r = 2.5λ) is improved from -21.4 dB to -31.1 dB.",

keywords = "Ultrasound, Imaging, Beamforming, Transducer, Imperfection, Correction, Calibration",

author = "Tomov, {Borislav Gueorguiev} and Bhatti, {Mudabbir Tufail} and Billy Yiu and Diederichsen, {S{\o}ren Elmin} and Thomsen, {Erik Vilain} and Jensen, {J{\o}rgen Arendt}",

year = "2025",

language = "English",

booktitle = "Proceedings of SPIE",

publisher = "SPIE - International Society for Optical Engineering",

note = "SPIE Medical Imaging 2025 ; Conference date: 16-02-2025 Through 20-02-2025",

}

TY - GEN

T1 - Transducer Geometry Imperfection Compensation

AU - Tomov, Borislav Gueorguiev

AU - Bhatti, Mudabbir Tufail

AU - Yiu, Billy

AU - Diederichsen, Søren Elmin

AU - Thomsen, Erik Vilain

AU - Jensen, Jørgen Arendt

PY - 2025

Y1 - 2025

N2 - Multi-element ultrasound arrays are not always perfect, especially when produced using experimental technology. Element variability leads to deterioration of image quality, which prevents a fair comparison to more established transducer manufacturing technologies. This paper presents an approach to compensate for the geometric (Zaxis) imperfections of a transducer, relying on the characterization results of its individual elements. It is hypothesized that compensating for the geometric imperfection of the transducer can significantly improve the ultrasound image quality. The potential of the approach is evaluated through image quality comparison using a commercial transducer, an experimental transducer, and a multi-wire phantom. For a wire at 75 mm depth, the lateral width of a wire image is reduced from 7.4 λ to 3.1 λ, and the cystic contrast (r = 2.5λ) is improved from -21.4 dB to -31.1 dB.

AB - Multi-element ultrasound arrays are not always perfect, especially when produced using experimental technology. Element variability leads to deterioration of image quality, which prevents a fair comparison to more established transducer manufacturing technologies. This paper presents an approach to compensate for the geometric (Zaxis) imperfections of a transducer, relying on the characterization results of its individual elements. It is hypothesized that compensating for the geometric imperfection of the transducer can significantly improve the ultrasound image quality. The potential of the approach is evaluated through image quality comparison using a commercial transducer, an experimental transducer, and a multi-wire phantom. For a wire at 75 mm depth, the lateral width of a wire image is reduced from 7.4 λ to 3.1 λ, and the cystic contrast (r = 2.5λ) is improved from -21.4 dB to -31.1 dB.

KW - Ultrasound

KW - Imaging

KW - Beamforming

KW - Transducer

KW - Imperfection

KW - Correction

KW - Calibration

M3 - Article in proceedings

BT - Proceedings of SPIE

PB - SPIE - International Society for Optical Engineering

T2 - SPIE Medical Imaging 2025

Y2 - 16 February 2025 through 20 February 2025

ER -

Transducer Geometry Imperfection Compensation

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