Universal coded ultrasound imaging system with software processing

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Authors

  • Marcin Lewandowski Institute of Fundamental Technological Research, Department of Ultrasound, Polish Academy of Sciences, Świętokrzyska 21, 00-049 Warszawa, Poland
  • Andrzej Nowicki Institute of Fundamental Technological Research, Department of Ultrasound, Polish Academy of Sciences, Świętokrzyska 21, 00-049 Warszawa, Poland

Abstract

Coded transmission is a technique to solve the inherent compromise between penetration and resolution required in ultrasound imaging. Our aim was to examine the performance of the coded excitation in HF (20–35 MHz) ultrasound imaging. For this purpose a novel realtime imaging system has been developed. The digital programmable coder-digitizer module supports arbitrary coded waveform generation and RF echoes sampling up to 200 MSPS. All digital RF and image processing was implemented in software. The system performance was evaluated with a single thick-film transducer (focused 25 MHz, 75% bandwidth) scanning head. The RF echoes were acquired from a perfect reflector located with 1 cm of tissue mimicking material. Single sinus burst and 16-bits Golay codes excitations were evaluated. SNR gain for the Golay codes (referenced to single burst) of 15 dB for 20 MHz and 16 dB for 35 MHz were obtained. The axial resolution measured at half maximum was 35 ns for 20 MHz and 25 ns for 35 MHz for both single burst and the Golay codes. It clearly shows that the Golay codes can perfectly restore the resolution while giving respectable SNR gain.

Keywords:

medical imaging, coded excitation, high frequency ultrasound, digital signal processing.

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