Higher-frame-rate ultrasound imaging with reduced cross-talk by combining a synthetic aperture and spatial coded excitation

SPIE Medical Imaging Pub Date : 2016-04-01 DOI:10.1117/12.2214534

C. Ishihara, T. Ikeda, H. Masuzawa

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引用次数: 2

Abstract

In recent clinical practice of ultrasound imaging, the importance of high-frame-rate imaging is growing. Simultaneous multiple transmission is one way to increase frame rate while maintaining a spatial resolution and signal-to-noise ratio. However, this technique has an inherent issue in that "cross-talk artifacts" appear between the multiple transmitted pulses. In this study, a novel method providing higher-frame-rate ultrasound imaging with reduced cross-talk by combining a synthetic aperture and spatial coded excitation is proposed. In the proposed method, two coded transmission beams are simultaneously excited during beam steering in the lateral direction. Parallel receive beamforming is then performed in the region around individual transmission beams. Decoding is carried out by using two beamformed signals from a region where laterally neighboring transmission beams overlap. All decoded beamformed signals are then synthesized coherently. The proposed method was evaluated using a simulated phantom image under the assumption of imaging with a general sector probe. Results showed that the method achieved twice the frame rate while maintaining image resolution (105%) and reducing cross-talk artifacts from −37 dB to less than −57 dB.

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高帧率超声成像与减少串扰相结合的合成孔径和空间编码激励

在最近的超声成像临床实践中，高帧率成像的重要性越来越大。同时多路传输是在保持空间分辨率和信噪比的同时提高帧率的一种方法。然而，这种技术有一个固有的问题，即在多个传输脉冲之间出现“串扰伪影”。本文提出了一种结合合成孔径和空间编码激励的高帧率超声成像减少串扰的新方法。在该方法中，在波束横向转向过程中同时激励两束编码发射波束。然后在各个发射波束周围的区域进行平行接收波束形成。解码通过使用来自横向相邻发射波束重叠区域的两个波束形成的信号来进行。所有解码的波束形成信号然后被相干合成。在假设用一般扇形探针成像的情况下，用模拟的幻像对所提出的方法进行了评估。结果表明，该方法在保持图像分辨率(105%)的同时实现了两倍的帧速率，并将串扰伪影从−37 dB降低到−57 dB以下。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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SPIE Medical Imaging

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