评估换能器参数,以实现准确的中声速估算和图像重建。

Rick Waasdorp;David Maresca;Guillaume Renaud
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引用次数: 0

摘要

换能器透镜对图像重建的影响往往被忽视。透镜的声速通常低于生物软组织。在学术研究中,透镜的确切声速和厚度通常是未知的。在此,我们介绍一种简单、无损的方法来表征透镜声速和厚度,以及超声波往返波形的峰值时间,这是优化图像重建的另一个关键参数。我们将这种方法应用于中心频率分别为 2.5、7.5 和 15 MHz 的三个传感器。我们通过逐个元素的传输序列来估算这三个参数,该序列记录了透镜内部的反射。我们使用自动对焦方法对检索到的参数进行了验证,该方法可估算水中的声速。我们的结果表明,将参数估计方法与双层光线追踪相结合,效果优于标准图像重建。对于所有传感器,我们都成功提高了中等声速估算的准确性、空间分辨率和对比度。所提出的方法简单稳健,能准确估计换能器透镜参数和超声波形的峰值时间,从而提高超声图像质量。
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Assessing Transducer Parameters for Accurate Medium Sound Speed Estimation and Image Reconstruction
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 the time to peak of the ultrasound waveform, which leads to improved ultrasound image quality.
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来源期刊
CiteScore
7.70
自引率
16.70%
发文量
583
审稿时长
4.5 months
期刊介绍: IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control includes the theory, technology, materials, and applications relating to: (1) the generation, transmission, and detection of ultrasonic waves and related phenomena; (2) medical ultrasound, including hyperthermia, bioeffects, tissue characterization and imaging; (3) ferroelectric, piezoelectric, and piezomagnetic materials, including crystals, polycrystalline solids, films, polymers, and composites; (4) frequency control, timing and time distribution, including crystal oscillators and other means of classical frequency control, and atomic, molecular and laser frequency control standards. Areas of interest range from fundamental studies to the design and/or applications of devices and systems.
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