Many measurement modalities which perform imaging by probing an object pixel-by-pixel, such as via Photoacoustic Microscopy, produce a multi-dimensional feature (typically a time-domain signal) at each pixel. In principle, the many degrees of freedom in the time-domain signal would admit the possibility of significant multi-modal information being implicitly present, much more than a single scalar "brightness", regarding the underlying targets being observed. However, the measured signal is neither a weighted-sum of basis functions (such as principal components) nor one of a set of prototypes (K-means), which has motivated the novel clustering method proposed here, capable of learning centroids (signal shapes) that are related to the underlying, albeit unknown, target characteristics in a scalable and noise-robust manner.
翻译:许多测量模式,例如通过光声学微镜检查等物体像素逐象素进行成像,在每像素中产生一个多维特征(通常是时间-域信号),原则上,时间-域信号的自由度多度将承认在所观测的基本目标方面,可能暗含大量多模式信息,远不止一个标语“斜度”,但所测量的信号既不是基础功能(如主要部件)的加权和一组原型(K值),它激发了在此提议的新型集群方法,能够以可缩放和噪音-紫外线的方式学习与基本(尽管未知)目标特征相关的近似半成形(信号形状)。
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