Detecting mutually-salient landmark pairs with MRF regularization

2010 IEEE International Symposium on Biomedical Imaging: From Nano to Macro Pub Date : 2010-04-14 DOI:10.1109/ISBI.2010.5490324

Yangming Ou, A. Besbes, M. Bilello, Mohamed Mansour, C. Davatzikos, N. Paragios

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引用次数: 18

Abstract

In this paper, we present a framework for extracting mutually-salient landmark pairs for registration. Traditional methods detect landmarks one-by-one and separately in two images. Therefore, the detected landmarks might inherit low dis-criminability and are not necessarily good for matching. In contrast, our method detects landmarks pair-by-pair across images, and those pairs are required to be mutually-salient, i.e., uniquely corresponding to each other. The second merit of our framework is that, instead of finding individually optimal correspondence, which is a local approach and could cause self-intersection of the resultant deformation, our framework adopts a Markov-random-field (MRF)-based spatial arrangement to select the globally optimal landmark pairs. In this way, the geometric consistency of the correspondences is maintained and the resultant deformations are relatively smooth and topology-preserving. Promising experimental validation through a radiologist's evaluation of the established correspondences is presented.

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用MRF正则化方法检测相互显著的地标对

在本文中，我们提出了一个框架来提取相互显著的地标对进行配准。传统的方法是在两幅图像中逐个检测地标。因此，检测到的标记可能具有较低的可分辨性，并且不一定适合匹配。相比之下，我们的方法是在图像中成对地检测地标，这些对被要求是相互显著的，即彼此唯一对应。该框架的第二个优点是，我们的框架采用基于马尔可夫随机场(MRF)的空间排列来选择全局最优的地标对，而不是寻找单独的最优对应，这是一种局部方法，可能导致结果变形的自交。通过这种方式，保持了对应的几何一致性，并且生成的变形相对光滑且拓扑保持。有希望的实验验证，通过一个放射科医生的评估建立相应的提出。

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2010 IEEE International Symposium on Biomedical Imaging: From Nano to Macro

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