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A Rank-Constrained Matrix Representation for Hypergraph-Based Subspace Clustering

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  • Yubao Sun
  • Zhi Li
  • Min Wu

Abstract

This paper presents a novel, rank-constrained matrix representation combined with hypergraph spectral analysis to enable the recovery of the original subspace structures of corrupted data. Real-world data are frequently corrupted with both sparse error and noise. Our matrix decomposition model separates the low-rank, sparse error, and noise components from the data in order to enhance robustness to the corruption. In order to obtain the desired rank representation of the data within a dictionary, our model directly utilizes rank constraints by restricting the upper bound of the rank range. An alternative projection algorithm is proposed to estimate the low-rank representation and separate the sparse error from the data matrix. To further capture the complex relationship between data distributed in multiple subspaces, we use hypergraph to represent the data by encapsulating multiple related samples into one hyperedge. The final clustering result is obtained by spectral decomposition of the hypergraph Laplacian matrix. Validation experiments on the Extended Yale Face Database B, AR, and Hopkins 155 datasets show that the proposed method is a promising tool for subspace clustering.

Suggested Citation

  • Yubao Sun & Zhi Li & Min Wu, 2015. "A Rank-Constrained Matrix Representation for Hypergraph-Based Subspace Clustering," Mathematical Problems in Engineering, Hindawi, vol. 2015, pages 1-12, November.
  • Handle: RePEc:hin:jnlmpe:572753
    DOI: 10.1155/2015/572753
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