A method for synthetic aperture flow imaging using dual stage beamforming has been developed. The main motivation is to increase the frame rate and still maintain a beamforming quality sufficient for flow estimation that is possible to implement in a commercial scanner. This method can generate continuous high frame rate flow images with lower calculation demands than the full synthetic aperture flow imaging. The performance of the approach was investigated using Field II simulations and measurements with the experimental scanner SARUS. A laminar flow with a parabolic profile was generated by a flow rig system. The flow data were acquired by a commercial 7 MHz linear array transducer. Four emissions were transmitted sequentially and repeated 12 times corresponding to 48 emissions. Flow with a peak velocity of 0.12 m/s was measured, the relative standard deviation was 6.4%, and the bias was 7.6% (2.1% and 3.2% for the simulations). A parameter study revealed that emission spacing, number of cross-correlation functions used for averaging, and the length of the velocity searching range influence the performance. Compared to the full synthetic aperture flow imaging the total number of beamformed samples are reduced by a factor of 64 times, and the frame rate is much higher than the conventional method for the same velocity estimation accuracy.
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机译:已经开发了一种使用双阶段波束形成的合成孔径流成像的方法。主要动机是增加帧速率并仍保持足以用于流量估计的波束成形质量,这可以在商用扫描仪中实现。与全合成孔径流成像相比,该方法可以生成具有较低计算要求的连续高帧率流图像。使用Field II模拟和实验扫描仪SARUS进行测量,研究了该方法的性能。流动钻机系统生成具有抛物线轮廓的层流。流量数据通过商用7 MHz线性阵列换能器获取。依次发射了四次发射,并重复了12次,相当于48次发射。测量的流速峰值速度为0.12 m / s,相对标准偏差为6.4%,偏差为7.6%(模拟时为2.1%和3.2%)。参数研究表明,发射间隔,用于求平均的互相关函数的数量以及速度搜索范围的长度会影响性能。与全合成孔径流成像相比,波束形成样本的总数减少了64倍,并且在相同的速度估计精度下,帧频比传统方法高得多。
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