一个并行,O(N)算法的无偏,薄分水岭

T. Chabardès, P. Dokládal, M. Faessel, M. Bilodeau
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引用次数: 5

摘要

分水岭变换是形态学分割的有力工具。该方法的大多数常见实现涉及在处理构成图像的像素时对灰度色调进行严格的层次结构。这些依赖关系使现代计算体系结构的有效使用变得复杂。本文旨在通过引入一种新的模拟水驱的方法来解决这一问题,该方法减轻了分层队列传播的顺序性。用这种方法可以使同时无序生长成为可能。达到更高的速度,可以处理更大的数据量。实验结果表明,该算法具有较高的精度,并能生成一条细而圆心良好的分水岭线。
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A parallel, O(N) algorithm for unbiased, thin watershed
The watershed transform is a powerful tool for morphological segmentation. Most common implementations of this method involve a strict hierarchy on gray tones in processing the pixels composing an image. Those dependencies complexify the efficient use of modern computational architectures. This paper aims at answering this problem by introducing a new way of simulating the waterflood that alleviates the sequential nature of hierachical queue propagation. Simultaneous and disorderly growth is made possible using this method. higher speed is reached and bigger data volume can be processed. Experimental results show that the algorithm is accurate and produces a thin, well centered watershed line.
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