Liu TZhu JZhou JZhu YZhu X2019-122019-12MULTIMEDIA TOOLS AND APPLICATIONS, 2019, 78 (23), pp. 33279 - 332961380-7501https://hdl.handle.net/10179/17430CAUL read and publish agreement 2022Classic k-means clustering algorithm randomly selects centroids for initialization to possibly output unstable clustering results. Moreover, random initialization makes the clustering result hard to reproduce. Spectral clustering algorithm is a two-step strategy, which first generates a similarity matrix and then conducts eigenvalue decomposition on the Laplacian matrix of the similarity matrix to obtain the spectral representation. However, the goal of the first step in the spectral clustering algorithm does not guarantee the best clustering result. To address the above issues, this paper proposes an Initialization-Similarity (IS) algorithm which learns the similarity matrix and the new representation in a unified way and fixes initialization using the sum-of-norms regularization to make the clustering more robust. The experimental results on ten real-world benchmark datasets demonstrate that our IS clustering algorithm outperforms the comparison clustering algorithms in terms of three evaluation metrics for clustering algorithm including accuracy (ACC), normalized mutual information (NMI), and Purity.33279 - 33296k-means clusteringSpectral clusteringInitializationSimilarityJournal article10.1007/s11042-019-7663-84235211573-7721Massey_Dark0803 Computer Software0805 Distributed Computing0806 Information Systems0801 Artificial Intelligence and Image Processing