Abstract
Monitoring cavitation is important for therapeutic applications relying on cavitation of microbubbles. Passive cavitation mapping (PCM) can provide quantitative and spatial information of cavitation activities; however, PCM based on time exposure acoustics (PCM-TEA) suffers from poor axial resolution. We propose a novel cavitation mapping algorithm with improved axial resolution based on localization of cavitation events from the individual element signals of the transducer array, even when the timing of the cavitation event is unknown.
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