Abstract
The influence of the transducer lens on image reconstruction is often overlooked. Lenses usually exhibit a lower sound speed than soft biological tissues. In academic research, the exact lens sound speed and thickness are typically unknown. Here we present a simple and nondestructive method to characterize the lens sound speed and thickness as well as the time to peak of the round-trip ultrasound waveform, another key parameter for optimal image reconstruction. We applied our method to three transducers with center frequencies of 2.5, 7.5 and 15 MHz. We estimated the three parameters with an element-by-element transmission sequence that records internal reflections within the lens. We validated the retrieved parameters using an autofocusing approach that estimates sound speed in water. We show that the combination of our parameters estimation method with two-layer ray tracing outperforms standard image reconstruction. For all transducers, we successfully improved the accuracy of medium sound speed estimation, spatial resolution and contrast. The proposed method is simple and robust and provides an accurate estimation of the transducer lens parameters and of the time to peak of the ultrasound waveform which leads to improved ultrasound image quality.
Original language | English |
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Journal | IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control |
DOIs | |
Publication status | Accepted/In press - 27 Aug 2024 |
Keywords
- Aberration correction
- Accuracy
- Image reconstruction
- Imaging
- Lens
- Lenses
- Ray tracing
- Reflection
- Sound speed estimation
- Transducer
- Transducers
- Ultrasonic imaging
- Ultrasound