P1A-8模糊超声图像作为isi影响信号:关节组织响应估计和通道跟踪

L. De Marchi, A. Palladini, N. Testoni, N. Speciale
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引用次数: 2

摘要

由于换能器点扩散函数(PSF)引入的组织反射率模糊,生物医学超声(US)图像质量受到限制。我们提出了一种基于最大似然(ML)估计组织反应的方法。我们采用了数字通信中常用的有效均衡技术:将超声波射频信号视为受信道码间干扰(ISI)影响的离散值(符号)序列,并采用降低复杂度的Viterbi算法进行处理。然后通过将Viterbi算法与最小均方(LMS)实时更新程序相结合来跟踪信道的空间变化。最后,定义了一种自适应符号量化方法,克服了有限长度字母所带来的定性限制。结果表明,通道的快速LMS适应允许实时空间分析和补偿组织衰减效应和不均匀性,从而增强了超声图像的诊断能力。
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P1A-8 Blurred Ultrasonic Images as ISI-Affected Signals: Joint Tissue Response Estimation and Channel Tracking in the Proposed Paradigm
Biomedical ultrasound (US) image quality is limited due to the blurring of tissue reflectivity introduced by the transducer Point Spread Function (PSF). We present a method based on a Maximum Likelihood (ML) estimation of tissue response. We adopt efficient equalization techniques usually applied in digital communications: the ultrasonic RF signal is considered as a sequence of discrete values (symbols) affected by channel intersymbol interference (ISI), and processed with a reduced-complexity Viterbi algorithm. Spatial variations of the channel are then tracked by coupling the Viterbi algorithm with a least mean square (LMS) real-time updating procedure. Finally, an adaptive symbol-quantization is defined to overcome the qualitative limitation due to a finite-length alphabet. The results show that the fast LMS adaptation of the channel allows for a real-time spatial analysis and compensation of tissue attenuation effects and inhomogeneities, thus enhancing the diagnostic capability of US images.
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