Sequential Dynamic Aperture Focusing Strategy for Transmissive Ultrasonic Phase Array Tomography

Abstract

Industrial ultrasonic tomography (UT) possesses unique benefits in nonintrusive detection of cross-sectional medium and has received broad attention in decades. Aiming at the complex bubble imaging, the conventional independent-transducer-based UT has low spatial resolution due to wide projection path and low projection number. Based on ultrasound phase array (UPA) transducers, this article proposes a sequential dynamic aperture focusing strategy for transmissive ultrasonic phase array tomography (UPAT). The emitting aperture focuses the ultrasound beam on a close distance to generate a high intensity and wide-angle acoustic field that covers multiple receivers in single excitation and further induces high amount of multiangle narrow projections, through which the measurement speed and imaging performance are substantially improved. Beyond numerical analysis on image accuracy and noise robustness, an experimental UPAT system with independent T/R channels is developed to evaluate the proposed method, where the improvement on imaging accuracy and speed are testified through qualitatively and quantitatively comparison with the state-of-art UT and the beam scanning UPAT techniques. The UPAT-focus strategy is proved to be advanced and feasible in imaging complex medium distribution.