Unsupervised Modeling of Objects and Their Hierarchical Contextual Interactions

  • Devi Parikh1Email author and

    Affiliated with

    • Tsuhan Chen1

      Affiliated with

      EURASIP Journal on Image and Video Processing20092009:184618

      DOI: 10.1155/2009/184618

      Received: 11 June 2008

      Accepted: 2 September 2008

      Published: 26 January 2009


      A successful representation of objects in literature is as a collection of patches, or parts, with a certain appearance and position. The relative locations of the different parts of an object are constrained by the geometry of the object. Going beyond a single object, consider a collection of images of a particular scene category containing multiple (recurring) objects. The parts belonging to different objects are not constrained by such a geometry. However, the objects themselves, arguably due to their semantic relationships, demonstrate a pattern in their relative locations. Hence, analyzing the interactions among the parts across the collection of images can allow for extraction of the foreground objects, and analyzing the interactions among these objects can allow for a semantically meaningful grouping of these objects, which characterizes the entire scene. These groupings are typically hierarchical. We introduce hierarchical semantics of objects (hSO) that captures this hierarchical grouping. We propose an approach for the unsupervised learning of the hSO from a collection of images of a particular scene. We also demonstrate the use of the hSO in providing context for enhanced object localization in the presence of significant occlusions, and show its superior performance over a fully connected graphical model for the same task.

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      Authors’ Affiliations

      Department of Electrical and Computer Engineering, Carnegie Mellon University


      © D. Parikh and T. Chen. 2009

      This article is published under license to BioMed Central Ltd. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.