使用一种新的1.5D方法改进应变估计:初步结果

2016 International Conference on Medical Engineering, Health Informatics and Technology (MediTec) Pub Date : 2016-12-01 DOI:10.1109/MEDITEC.2016.7835383

Irteza Enan Kabir, Rasheed Abid, Abdullah Salmon Ashik, Kazi Khairul Islam, S. Alam

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引用次数: 8

摘要

生物组织的变化改变了它们的弹性。弹性成像在疾病诊断中的作用越来越大。在弹性学中，组织应变是用信号处理来估计的。应变通常是根据预压缩和后压缩超声回波信号之间的估计位移来计算的。本文介绍了一种新型的1.5D应变估计器。该算法使用一维窗口进行快速计算，但在横向搜索以考虑非轴向运动。我们的方法的性能优于传统的方法，特别是在存在较高的施加应变。图像质量也显著提高。

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Improved strain estimation using a novel 1.5D approach: Preliminary results

Changes in biological tissues change their elasticity. Elasticity imaging enjoys an ever increasing role in disease diagnosis. In elastography, tissue strain is estimated using signal processing. Strain is conventionally calculated from estimated displacements between the pre- and post-compression ultrasonic echo signals. In this paper, we introduce a novel 1.5D strain estimator. The proposed algorithm uses 1D windows for fast computation, but searches in the lateral direction to account for non-axial motion. The performance of our method outperforms traditional methods, especially in the presence of higher applied strain. The image quality also improves significantly.

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来源期刊

2016 International Conference on Medical Engineering, Health Informatics and Technology (MediTec)

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