• DocumentCode
    1393911
  • Title

    Self-Validated Labeling of Markov Random Fields for Image Segmentation

  • Author

    Feng, Wei ; Jia, Jiaya ; Liu, Zhi-Qiang

  • Author_Institution
    Sch. of Creative Media, City Univ. of Hong Kong, Kowloon, China
  • Volume
    32
  • Issue
    10
  • fYear
    2010
  • Firstpage
    1871
  • Lastpage
    1887
  • Abstract
    This paper addresses the problem of self-validated labeling of Markov random fields (MRFs), namely to optimize an MRF with unknown number of labels. We present graduated graph cuts (GGC), a new technique that extends the binary s-t graph cut for self-validated labeling. Specifically, we use the split-and-merge strategy to decompose the complex problem to a series of tractable subproblems. In terms of Gibbs energy minimization, a suboptimal labeling is gradually obtained based upon a set of cluster-level operations. By using different optimization structures, we propose three practical algorithms: tree-structured graph cuts (TSGC), net-structured graph cuts (NSGC), and hierarchical graph cuts (HGC). In contrast to previous methods, the proposed algorithms can automatically determine the number of labels, properly balance the labeling accuracy, spatial coherence, and the labeling cost (i.e., the number of labels), and are computationally efficient, independent to initialization, and able to converge to good local minima of the objective energy function. We apply the proposed algorithms to natural image segmentation. Experimental results show that our algorithms produce generally feasible segmentations for benchmark data sets, and outperform alternative methods in terms of robustness to noise, speed, and preservation of soft boundaries.
  • Keywords
    Markov processes; formal verification; free energy; graph theory; image classification; image segmentation; random processes; Gibbs energy minimization; Markov random fields; benchmark data set; binary s-t graph cut; cluster level operation; graduated graph cut; hierarchical graph cut; image segmentation; net structured graph cut; noise robustness; self-validated labeling; soft boundary preservation; speed robustness; split-and-merge strategy; tree structured graph cut; Clustering algorithms; Computational efficiency; Costs; Image converters; Image segmentation; Labeling; Markov random fields; Noise robustness; Spatial coherence; Tree graphs; Markov random fields (MRFs); Self-validated labeling; graduated graph cuts; image segmentation; split-and-merge.;
  • fLanguage
    English
  • Journal_Title
    Pattern Analysis and Machine Intelligence, IEEE Transactions on
  • Publisher
    ieee
  • ISSN
    0162-8828
  • Type

    jour

  • DOI
    10.1109/TPAMI.2010.24
  • Filename
    5396340