超声超快成像中高质量图像的最小方差稀疏阵列方法

D. F. Gomes, A. Zimbico, J. Maia, L. Neves, A. Assef, F. Schneider, E. Costa
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引用次数: 1

摘要

在保证超快超声成像质量的同时,提出了稀疏阵列与最小方差波束形成器相结合的方法。其动机是,获得高质量的图像需要大量数据的采集、处理和存储,因此,通过稀疏性(在接收中禁用某些数组元素位置),需要减少存储的数据量,以提高扫描速率。采用PICMUS网站上的模拟和活体数据集进行了该方法的实验。测试使用128个元素进行传输,128、65、44和23个元素稀疏分布在接收中。使用半最大全宽(FWHM)和对比度(CR)进行了性能评估。结果表明,该方法生成的图像在空间分辨率和对比度方面接近DAS提供的图像,减少了接收中有效元素的数量,表明该方法适用于超声成像。
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Sparse Arrays Method with Minimum Variance for High Quality Image in Ultrasound Ultrafast Imaging
Sparse arrays combined with Minimum Variance (SMV) beamformer is suggested to improve the data rate while maintaining the quality image of ultrafast ultrasound imaging. The motivation is that obtaining high quality images requires the acquisition, processing and storage of a large amount of data so that, with sparsity (disabled some array elements positions in the reception), the amount of data to be stored should be reduced in order to increase the scan rate. The experiments of the proposed method were performed using simulated and in-vivo dataset available in the PICMUS website. The tests were performed using 128 elements for transmission and 128, 65, 44, and 23 elements sparsely distributed in the reception. The performance evaluation has been done using the Full Width at Half Maximum (FWHM) and the Contrast Ratio (CR). Results showed that the images generated by the proposed method, with reduced number of active elements in the reception, were close to those provided by DAS in terms of spatial resolutions and contrast, indicating that the proposed SMV method is suitable for ultrasound imaging.
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