用交错迭代频率复合方法降低散斑噪声的超声谐波成像

2015 8th International Conference on Biomedical Engineering and Informatics (BMEI) Pub Date : 2015-10-01 DOI:10.1109/BMEI.2015.7401469

Wei Guo, Yuanyuan Wang, Jinhua Yu

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引用次数: 1

摘要

散斑噪声是任何相干成像系统所固有的一种现象，它降低了相干成像系统的信噪比，降低了成像质量。由于组织谐波成像(THI)比基波成像(FI)具有更低的能量和更差的信噪比，因此散斑噪声的抑制在组织谐波成像(THI)中尤为重要。利用频率复合(FC)技术，通过改变脉冲的中心频率，对具有不同散斑模式的图像进行非相干平均，可以有效地降低散斑。对于THI，当使用FC时，发射光谱的差异增加了一倍。本文提出了一种结合脉冲反演技术的交错迭代频率复合(IIFC)方法。该方法在保持高帧率的同时，具有良好的散斑抑制性能。为了说明我们的方法的性能，在模拟数据上进行了实验。谐波成像仿真采用基于全波模型的非线性仿真平台。结果表明，与单帧THI相比，我们的方法使信噪比提高了22%，同时在分辨率和对比度方面都比FI保持了更好的性能。我们还证明了我们的THI方法虽然使用PI，但仍然保持高帧率。

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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Ultrasound harmonic imaging with reducing speckle noise by an interlaced iterative frequency compounding approach

Speckle noise is a phenomenon inherent in any coherent imaging system and decreases the signal-to-noise ratio (SNR), which brings down the imaging quality. Speckle noise reduction is particularly important in the tissue harmonic imaging (THI) since it has the lower energy and the poorer SNR than the fundamental imaging (FI). Speckle can be reduced by frequency compounding (FC), which means incoherently averaging the images with different speckle patterns acquired by changing the center frequency of the pulse. As for the THI, the difference in the emission spectrum doubles when using the FC. In this paper, we propose an interlaced iterative frequency compounding (IIFC) method with the pulse inversion (PI) technique. The new method brings a good speckle suppression performance while the high frame rate is retained. To illustrate the performance of our method, experiments have been conducted on the simulated data. A nonlinear simulation platform based on the full-wave model is used in the harmonic imaging simulation. Results show that our method brings the SNR an improvement of up to 22% in comparison with the single frame THI while maintaining a far better performance in both terms of resolution and contrast than the FI. We also demonstrate that our method for THI retains the high frame rate although using PI.

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2015 8th International Conference on Biomedical Engineering and Informatics (BMEI)

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