基于统计形状先验模型的几何活动轮廓

2008 IEEE International Symposium on Signal Processing and Information Technology Pub Date : 2008-12-01 DOI:10.1109/ISSPIT.2008.4775725

F. Derraz, A. Taleb-Ahmed, A. Pinti, A. Chikh, F. Bereksi-Reguig

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引用次数: 3

摘要

提出了一种结合梯度、区域和形状知识信息线索的基于几何活动轮廓的水平集模型，用于遮挡和杂乱背景下的鲁棒目标检测边界。将梯度、区域和形状知识信息作为能量项。先验形状模型是基于训练数据分布的统计学习，其中数据分布的结构由概率密度模型近似。将获得的概率作为核主成分分析(KPC)，将与训练数据接近的形状作为能量项，并以更鲁棒的方式将形状的先验知识纳入到进化方程模型中，以约束进一步的分割进化过程。我们成功地将该模型应用于合成和真实的MR图像。将新模型所得到的结果与专家分割结果进行了比较，并用f测度进行了评价。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A Geometrical Active Contour Based on Statistical Shape Prior Model

A new geometric active contour based level-sets model combining gradient, region and shape knowledge information cues is proposed to robust object detection boundaries in presence of occlusions and cluttered background. The gradient, region and shape knowledge information are incorporated as energy terms. The a priori shape model is based on statistical learning of the training data distribution where the structure of data distribution is approximated by a probability density model. The obtained probability is treated as Kernel Principal Component Analysis (KPC) by allowing the shapes that are close to the training data as energy term and incorporated a prior knowledge about shapes in a more robust manner into evolving equation model to constrain the further segmentation evolution process. We applied successfully the proposed model to synthetic and real MR images. The results drawn by the newer model are compared to expert segmentation and evaluated in terms of F-mesure.

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2008 IEEE International Symposium on Signal Processing and Information Technology

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