利用基于生物学的宽动态范围压缩算法改进医学超声图像中的照明伪影

Q3 Arts and Humanities Giornale di Storia Costituzionale Pub Date : 2004-12-13 DOI:10.1109/ICECS.2004.1399711
H. Spitzer, Y. Zimmer
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引用次数: 1

摘要

医学超声b扫描经常受到固有的伪影的影响,这些伪影源于活组织中声波束的衰减特性。常用的时间增益补偿(TGC)等方法不能产生令人满意的结果。为了解决上述问题,我们测试了之前的一种宽动态范围压缩算法。该算法基于生物模型,该模型也被认为具有宽动态范围和亮度恒定。它基于“本地”和“远程”的视网膜适应机制(增益控制),通过考虑到人类适应机制的动态,也使视频图像应用成为可能。结果表明,该算法成功地自动曝光了同一图像中非常亮(即饱和)和非常暗的区域的细节。这种暴露似乎是一种有希望的重要工具,可以更好地进行临床诊断。
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Improvement of illumination artifacts in medical ultrasound images using a biologically based algorithm for compression of wide dynamic range
Medical ultrasonic B-scans often suffer from inherent artifacts that originate from the attenuation properties of the sonic beam in the living tissues. Common methods such as time gain compensation (TGC) do not yield satisfactory results. We tested a previous algorithm for compression of wide dynamic range in an attempt to address the above problem. This algorithm is based on a biological model that was also suggested for wide dynamic range and lightness constancy. It is based on retinal mechanisms of adaptation (gain control), both 'local', and 'remote', that enable also video image applications by taking into account the dynamics of human adaptation mechanisms. The results indicate that the algorithm succeeded in automatically exposing the details in very bright (i.e., saturated) and very dark zones in the same image. Such an exposure appears as a promising significant tool for better clinical diagnosis.
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Giornale di Storia Costituzionale
Giornale di Storia Costituzionale Arts and Humanities-History
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