Virtually Extended Array Imaging Improves Lateral Resolution in High Frame Rate Volumetric Imaging
Mehdi Soozande (Erasmus MC)
Fabian Fool (ImPhys/Acoustical Wavefield Imaging )
Maysam Shabanimotlagh (ImPhys/Acoustical Wavefield Imaging )
Michiel Pertijs (TU Delft - Electronic Instrumentation)
Martin Verweij (Erasmus MC, ImPhys/Acoustical Wavefield Imaging )
Rik Vos (ImPhys/Acoustical Wavefield Imaging , Erasmus MC)
Johan G. Bosch (Erasmus MC)
Nico de Jong (Erasmus MC, ImPhys/Acoustical Wavefield Imaging )
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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.
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