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JOURNAL ARTICLE

Virtually Extended Array Imaging Improves Lateral Resolution in High Frame Rate Volumetric Imaging

Mehdi SoozandeFabian FoolMaysam ShabanimotlaghMichiel A. P. PertijsMartin D. VerweijHendrik J. VosJohan G. BoschNico de Jong

Year: 2018 Pages: 1-9
DOI: 10.1109/ultsym.2018.8580018
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Abstract

Matrix arrays for endoscopic and catheter-based applications are restricted to small physical apertures, which limits their lateral resolution. In addition, when aiming for high volume rate imaging and utilizing the recent methods of transmitting a single or few diverging waves (DW), lateral resolution further deteriorates. In this work, we propose a high frame rate transmission scheme which outperforms alternative methods in lateral resolution. To improve the lateral resolution and side-lobe level, we propose to transmit only on a sub-aperture on either side of the array and apply a specific weighting function to received data. Compared to single-DW imaging, the proposed Sub-aperture Virtually Extended Array reduces the PSF width and sidelobe level by 16% and 5dB respectively and provides a similar SNR at the cost of halving the frame rate.

Keywords:
Side lobe Frame rate Aperture (computer memory) Weighting Resolution (logic) Image resolution Optics Computer science Physics Acoustics Artificial intelligence Telecommunications

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0.58
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Citation History

Topics

Ultrasound Imaging and Elastography
Health Sciences →  Medicine →  Radiology, Nuclear Medicine and Imaging
Microwave Imaging and Scattering Analysis
Physical Sciences →  Engineering →  Biomedical Engineering
Soil Moisture and Remote Sensing
Physical Sciences →  Environmental Science →  Environmental Engineering

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