Clipping removal in Synthetic Aperture Imaging

Natalia Perez Jimenez; Emma Kanchana Ertner Bengtsson; Eszter Olga  Révész; Karin Larsen; Michael Bachmann Nielsen; Charlotte Mehlin Sørensen; Jørgen Arendt Jensen

Clipping removal in Synthetic Aperture Imaging

Natalia Perez Jimenez, Emma Kanchana Ertner Bengtsson, Eszter Olga Révész, Karin Larsen, Michael Bachmann Nielsen, Charlotte Mehlin Sørensen, Jørgen Arendt Jensen

University of Copenhagen

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

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Abstract

Clipping artifacts impact the image quality and diagnostic accuracy in ultrasound imaging. This study introduces a post-processing technique designed to eliminate clipping in ultrasound scans acquired using synthetic aperture ultrasound systems (SAUS). It is hypothesized that the proposed method can effectively masks out clipped signals while preserving non-clipped contributions and without a significant loss of image quality. A phantom and an in-vivo rat brain scan were used to test this hypothesis. The analysis of the phantom data showed that the proposed method can be applied to remove mild levels of clipping without a significant loss in contrast and resolution. In fact, when up to 30% of the data was clipped, the loss in resolution after applying clipping removal was lower than 2.5% and the contrast decreased less than 7.9%, when compared with the original non-clipped image. In-vivo results, on the other hand, demonstrated that applying the proposed algorithm effectively removes clipping artifacts while preserving the underlying information. Additionally, it enhances the image’s dynamic range by approximately 12%, when compared with the clipped data.

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

Clipping
Artifact
Skull
Synthetic Aperture
Ultrasound
Brain
Transcranial Imaging
Power Poppler
PD
Super-Resolution
SRI
SURE
Contrast-free

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Cite this

@inproceedings{b7b93d9c516447468dd5a1575caf98fe,

title = "Clipping removal in Synthetic Aperture Imaging",

abstract = "Clipping artifacts impact the image quality and diagnostic accuracy in ultrasound imaging. This study introduces a post-processing technique designed to eliminate clipping in ultrasound scans acquired using synthetic aperture ultrasound systems (SAUS). It is hypothesized that the proposed method can effectively masks out clipped signals while preserving non-clipped contributions and without a significant loss of image quality. A phantom and an in-vivo rat brain scan were used to test this hypothesis. The analysis of the phantom data showed that the proposed method can be applied to remove mild levels of clipping without a significant loss in contrast and resolution. In fact, when up to 30% of the data was clipped, the loss in resolution after applying clipping removal was lower than 2.5% and the contrast decreased less than 7.9%, when compared with the original non-clipped image. In-vivo results, on the other hand, demonstrated that applying the proposed algorithm effectively removes clipping artifacts while preserving the underlying information. Additionally, it enhances the image{\textquoteright}s dynamic range by approximately 12%, when compared with the clipped data.",

keywords = "Clipping, Artifact, Skull, Synthetic Aperture, Ultrasound, Brain, Transcranial Imaging, Power Poppler, PD, Super-Resolution, SRI, SURE, Contrast-free",

author = "Jimenez, {Natalia Perez} and Bengtsson, {Emma Kanchana Ertner} and R{\'e}v{\'e}sz, {Eszter Olga} and Karin Larsen and Nielsen, {Michael Bachmann} and S{\o}rensen, {Charlotte Mehlin} 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 - Clipping removal in Synthetic Aperture Imaging

AU - Jimenez, Natalia Perez

AU - Bengtsson, Emma Kanchana Ertner

AU - Révész, Eszter Olga

AU - Larsen, Karin

AU - Nielsen, Michael Bachmann

AU - Sørensen, Charlotte Mehlin

AU - Jensen, Jørgen Arendt

PY - 2025

Y1 - 2025

N2 - Clipping artifacts impact the image quality and diagnostic accuracy in ultrasound imaging. This study introduces a post-processing technique designed to eliminate clipping in ultrasound scans acquired using synthetic aperture ultrasound systems (SAUS). It is hypothesized that the proposed method can effectively masks out clipped signals while preserving non-clipped contributions and without a significant loss of image quality. A phantom and an in-vivo rat brain scan were used to test this hypothesis. The analysis of the phantom data showed that the proposed method can be applied to remove mild levels of clipping without a significant loss in contrast and resolution. In fact, when up to 30% of the data was clipped, the loss in resolution after applying clipping removal was lower than 2.5% and the contrast decreased less than 7.9%, when compared with the original non-clipped image. In-vivo results, on the other hand, demonstrated that applying the proposed algorithm effectively removes clipping artifacts while preserving the underlying information. Additionally, it enhances the image’s dynamic range by approximately 12%, when compared with the clipped data.

AB - Clipping artifacts impact the image quality and diagnostic accuracy in ultrasound imaging. This study introduces a post-processing technique designed to eliminate clipping in ultrasound scans acquired using synthetic aperture ultrasound systems (SAUS). It is hypothesized that the proposed method can effectively masks out clipped signals while preserving non-clipped contributions and without a significant loss of image quality. A phantom and an in-vivo rat brain scan were used to test this hypothesis. The analysis of the phantom data showed that the proposed method can be applied to remove mild levels of clipping without a significant loss in contrast and resolution. In fact, when up to 30% of the data was clipped, the loss in resolution after applying clipping removal was lower than 2.5% and the contrast decreased less than 7.9%, when compared with the original non-clipped image. In-vivo results, on the other hand, demonstrated that applying the proposed algorithm effectively removes clipping artifacts while preserving the underlying information. Additionally, it enhances the image’s dynamic range by approximately 12%, when compared with the clipped data.

KW - Clipping

KW - Artifact

KW - Skull

KW - Synthetic Aperture

KW - Ultrasound

KW - Brain

KW - Transcranial Imaging

KW - Power Poppler

KW - PD

KW - Super-Resolution

KW - SRI

KW - SURE

KW - Contrast-free

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 -

Clipping removal in Synthetic Aperture Imaging

Abstract

Conference

Keywords

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