Gap connection of vascular branches by nonlinear least squares curve fitting algorithm

Proceedings of the 15th ACM SIGGRAPH Conference on Virtual-Reality Continuum and Its Applications in Industry - Volume 1 Pub Date : 2016-12-03 DOI:10.1145/3013971.3015778

Shi-feng Zhao, X. Wang, Yun Tian, Qingqiong Deng, Zhongke Wu, Mingquan Zhou

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引用次数: 1

Abstract

The integrity of vascular structure plays an important role in medical diagnosis. Yet segmented vascular usually contain undesirable gaps. In order to recover the topology of the real vessel network, we need to connect the gaps between the closest discontinuous branches. A new method is proposed which merges discontinuities in three-dimensional(3D) images of vascular structures. This algorithm is based on the skeletonization of the segmented network followed by projection. And a nonlinear least square curve fitting algorithm is then applied for connection disconnections in broken branches. Curve fitting is an essential tool for analyzing biological data, while a nonlinear least square curve fitting has its advantages in dealing with the connectivity and smoothness of the whole piece of curves. The fitting method permits to merge the most common kinds of discontinuities found in vascular networks. The experimental results demonstrate the method is effective for fitting gaps of vascular structure.

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非线性最小二乘曲线拟合维管分支的间隙连接

血管结构的完整性在医学诊断中起着重要作用。然而，分节血管通常含有不需要的间隙。为了恢复真实船舶网络的拓扑结构，我们需要将最近的不连续分支之间的间隙连接起来。提出了一种新的血管结构三维图像不连续点融合方法。该算法基于分割网络的骨架化，然后进行投影。然后采用非线性最小二乘曲线拟合算法对断路的断开进行求解。曲线拟合是分析生物数据的重要工具，而非线性最小二乘曲线拟合在处理整条曲线的连通性和光滑性方面具有优势。拟合方法允许合并血管网络中最常见的不连续类型。实验结果表明，该方法对血管结构间隙的拟合是有效的。

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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Proceedings of the 15th ACM SIGGRAPH Conference on Virtual-Reality Continuum and Its Applications in Industry - Volume 1

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