种子图像分割的拉普拉斯坐标

Wallace Casaca, L. G. Nonato, G. Taubin
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引用次数: 56

摘要

基于种子的图像分割方法近年来受到了广泛的关注,主要是由于它在分割复杂图像时具有良好的性能,并且用户交互较少。这种流行利用了基于种子的图像分割技术的许多新变体的发展,这些技术在数学公式和复杂性方面差异很大。大多数现有方法实际上依赖于复杂的数学公式,通常不能保证分割问题的唯一解,同时仍然容易陷入局部极小值。在这项工作中,我们提出了一种新的基于种子的图像分割框架,该框架在数学上简单,易于实现,并保证产生唯一的解决方案。此外,该公式具有各向异性,即具有相似属性的像素彼此保持更近的距离,同时在图像区域之间的边界上自然施加大的跳跃,从而确保更好地拟合对象边界。我们表明,所提出的框架优于最先进的技术在定量质量指标以及定性的视觉结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Laplacian Coordinates for Seeded Image Segmentation
Seed-based image segmentation methods have gained much attention lately, mainly due to their good performance in segmenting complex images with little user interaction. Such popularity leveraged the development of many new variations of seed-based image segmentation techniques, which vary greatly regarding mathematical formulation and complexity. Most existing methods in fact rely on complex mathematical formulations that typically do not guarantee unique solution for the segmentation problem while still being prone to be trapped in local minima. In this work we present a novel framework for seed-based image segmentation that is mathematically simple, easy to implement, and guaranteed to produce a unique solution. Moreover, the formulation holds an anisotropic behavior, that is, pixels sharing similar attributes are kept closer to each other while big jumps are naturally imposed on the boundary between image regions, thus ensuring better fitting on object boundaries. We show that the proposed framework outperform state-of-the-art techniques in terms of quantitative quality metrics as well as qualitative visual results.
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