基于特征向量选择的光谱聚类图像分割

Aditya Prakash, S. Balasubramanian, R. R. Sarma
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引用次数: 1

摘要

一般谱聚类算法采用归一化拉普拉斯的顶特征向量进行谱舍入。然而,最近的研究指出,在有噪声和稀疏数据的情况下,所有的顶部特征向量可能不具有信息性或相关性,无法用于聚类。使用这些特征向量进行光谱舍入可能导致不好的聚类结果。Zelnik和Perona[1]提出的自调谐SC方法对相关特征向量的选择提出了非常严格的与规范坐标系可能的最佳对准条件。分析了它们的算法,将最佳对齐准则简化为平均对齐准则。通过比较使用伯克利分割和基准数据集的结果,我们证明了我们在合成图像和自然图像上的即兴创作的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improvised eigenvector selection for spectral Clustering in image segmentation
General spectral Clustering(SC) algorithms employ top eigenvectors of normalized Laplacian for spectral rounding. However, recent research has pointed out that in case of noisy and sparse data, all top eigenvectors may not be informative or relevant for the purpose of clustering. Use of these eigenvectors for spectral rounding may lead to bad clustering results. Self-tuning SC method proposed by Zelnik and Perona [1] places a very stringent condition of best alignment possible with canonical coordinate system for selection of relevant eigenvectors. We analyse their algorithm and relax the best alignment criterion to an average alignment criterion. We demonstrate the effectiveness of our improvisation on synthetic as well as natural images by comparing the results using Berkeley segmentation and benchmarking dataset.
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