使用二部图匹配和链接进行微观视频中的细胞跟踪。

Cell tracking in microscopic video using matching and linking of bipartite graphs.

机构信息

Department of Electronics & Telecommunication Engineering, Jadavpur University, Kolkata 700032, India.

出版信息

Comput Methods Programs Biomed. 2013 Dec;112(3):422-31. doi: 10.1016/j.cmpb.2013.08.001. Epub 2013 Aug 22.

DOI:10.1016/j.cmpb.2013.08.001

Abstract

Automated visual tracking of cells from video microscopy has many important biomedical applications. In this paper, we track human monocyte cells in a fluorescent microscopic video using matching and linking of bipartite graphs. Tracking of cells over a pair of frames is modeled as a maximum cardinality minimum weight matching problem for a bipartite graph with a novel cost function. The tracking results are further refined using a rank-based filtering mechanism. Linking of cell trajectories over different frames are achieved through composition of bipartite matches. The proposed solution does not require any explicit motion model, is highly scalable, and, can effectively handle the entry and exit of cells. Our tracking accuracy of (97.97±0.94)% is superior than several existing methods [(95.66±2.39)%, (94.42±2.08)%, (81.22±5.75)%, (78.31±4.70)%] and is highly comparable (98.20±1.22)% to a recently published algorithm.

摘要

自动从视频显微镜中跟踪细胞在许多重要的生物医学应用中都有应用。在本文中，我们使用二分图的匹配和链接来跟踪荧光显微镜视频中的人类单核细胞。将细胞在一对帧之间的跟踪建模为具有新代价函数的二分图的最大基数最小权匹配问题。使用基于排序的过滤机制进一步改进跟踪结果。通过组成二分匹配来实现不同帧上的细胞轨迹的链接。所提出的解决方案不需要任何显式的运动模型，具有高度的可扩展性，可以有效地处理细胞的进入和退出。我们的跟踪精度为（97.97±0.94）%，优于几种现有方法[（95.66±2.39）%，（94.42±2.08）%，（81.22±5.75）%，（78.31±4.70）%]，与最近发表的算法（98.20±1.22）%高度可比。

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使用二部图匹配和链接进行微观视频中的细胞跟踪。

Cell tracking in microscopic video using matching and linking of bipartite graphs.

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