Title :
Statistical models of video structure for content analysis and characterization
Author :
Vasconcelos, Nuno ; Lippman, Andrew
Author_Institution :
Media Lab., MIT, Cambridge, MA, USA
fDate :
1/1/2000 12:00:00 AM
Abstract :
Content structure plays an important role in the understanding of video. In this paper, we argue that knowledge about structure can be used both as a means to improve the performance of content analysis and to extract features that convey semantic information about the content. We introduce statistical models for two important components of this structure, shot duration and activity, and demonstrate the usefulness of these models with two practical applications. First, we develop a Bayesian formulation for the shot segmentation problem that is shown to extend the standard thresholding model in an adaptive and intuitive way, leading to improved segmentation accuracy. Second, by applying the transformation into the shot duration/activity feature space to a database of movie clips, we also illustrate how the Bayesian model captures semantic properties of the content. We suggest ways in which these properties can be used as a basis for intuitive content-based access to movie libraries
Keywords :
Bayes methods; Weibull distribution; content-based retrieval; image segmentation; spatial data structures; statistics; video databases; Bayesian formulation; Weibull prior; content analysis; content characterization; content structure; feature extraction; intuitive content-based access; movie clips database; movie libraries; performance; segmentation accuracy; semantic information; shot activity; shot duration; shot segmentation; statistical models; thresholding model; video database; video modelling; video representations; video structure; Bayesian methods; Image databases; Image retrieval; Image segmentation; Information analysis; Layout; Libraries; Motion pictures; Performance analysis; Spatial databases;
Journal_Title :
Image Processing, IEEE Transactions on
