📝 SummarXiv

Abstract

With the rise of data-driven ultrasound imaging technologies, realistic simulation of ultrasound fields and radio-frequency data is becoming increasingly important. Accurate transducer characterization is crucial for realistic simulations. In this work, we present a streamlined ultrasound characterization pipeline that creates a virtual transducer model from acoustic holography measurements of the ultrasound field. The pipeline enables the extraction of the transmit impulse response, the receive impulse response, the size of the transducer aperture, and the focal distance of the lens. The method relies on acoustic field projections using either the angular spectrum method or Rayleigh integrals. Additionally, we present a method to compensate for misalignment in the measurement setup, based on the angular spectrum of the holographic measurement. We demonstrate the application of the characterization pipeline to a P4-1 phased array transducer. The resulting virtual transducer model can be imported into the PROTEUS simulation software for the generation of physically realistic ultrasound fields and ultrasound radio-frequency data with arbitrary transmit settings. The characterization pipeline has been released as an open-source toolkit to enable the ultrasound community to perform transducer characterization with increased accuracy and efficiency.