Motion-Model-Based Boundary Extraction and a Real-Time Implementation
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Motion boundary extraction and optical flow computation are two subproblems of the motion recovery problem that cannot be solved independently of one another. These two problems have been treated separately. A popular recent approach uses an iterative scheme that consists of motion boundary extraction and optical flow computation components and refines each result through iteration. We present a local, noniterative algorithm that simultaneously extracts motion boundaries and computes optical flow. This is achieved by modeling 3-D Hermite polynomial decompositions of image sequences representing the perspective projection of 3-D general motion. Local model parameters are used to determine whether motion should be estimated or motion boundaries should be extracted at the neighborhood. A definite advantage of this noniterative algorithm is its efficiency. It is demonstrated by a real-time implementation and supporting experimental results.
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论文评审过程:Received 13 February 1996, Accepted 17 March 1997, Available online 12 April 2002.
论文官网地址:https://doi.org/10.1006/cviu.1998.0625