Fast connected-component labeling for binary hexagonal images

2013 IEEE International Conference of IEEE Region 10 (TENCON 2013) Pub Date : 2013-10-01 DOI:10.1109/TENCON.2013.6718818

Lifeng He, Xiao Zhao, Yun Yang, Haipeng Tang, Y. Chao

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引用次数: 1

Abstract

Although hexagonal images have attracted many attentions, there is almost no report on connected-component labeling algorithm for binary hexagonal images. This paper studies this problem for the first time and presents a fast connected-component labeling algorithm for binary hexagonal images. We analyze the connectivity of two different type foreground pixels with their processed pixels when an image is processed in the raster scan order, and give corresponding processing masks. For labeling binary hexagonal images, although we can process pixels one by one in the first scan as in most of labeling algorithms, we propose an efficient algorithm by processing pixels two by two. We show that by our proposed algorithm, for labeling a binary hexagonal image, the average number of times for checking the neighbor pixels for processing a foreground pixel will decrease, thus it leads to a more efficiently processing. Experimental results demonstrated that our proposed method is more efficient than the algorithm extended straightly from the fastest labeling algorithm for rectangle binary images.

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二值六边形图像的快速连接分量标记

虽然六边形图像已经引起了人们的广泛关注，但是对于二值六边形图像的连通分量标记算法却几乎没有报道。本文首次对该问题进行了研究，提出了一种二值六边形图像的快速连通分量标记算法。我们分析了图像按光栅扫描顺序处理时两种不同类型前景像素与其被处理像素的连通性，并给出了相应的处理掩码。对于二值六边形图像的标记，虽然我们可以像大多数标记算法一样，在第一次扫描中逐个处理像素，但我们提出了一种高效的算法，即逐个处理像素。我们表明，通过我们提出的算法，标记二值六边形图像时，检查相邻像素处理前景像素的平均次数将减少，从而导致更有效的处理。实验结果表明，该方法比直接从最快的矩形二值图像标记算法扩展而来的算法效率更高。

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2013 IEEE International Conference of IEEE Region 10 (TENCON 2013)

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