Joint three-dimensional motion/disparity segmentation for object-based stereo image sequence coding

Dimitrios Tzovaras; Nikos Grammalidis; Michael G. Strintzis

doi:10.1117/1.600884

1 January 1996 Joint three-dimensional motion/disparity segmentation for object-based stereo image sequence coding

Dimitrios Tzovaras, Nikos Grammalidis, Michael G. Strintzis

Optical Engineering, Vol. 35, Issue 1, (January 1996). https://doi.org/10.1117/1.600884

An object-based coding scheme is proposed for coding the right channel of a stereoscopic image sequence, u.wng motion and disparity reformation. A multiresolution block-based motion estimation approach is used for initialization, while disparity estimation is performed using a pixel-based hierarchical dynamic programming algorithm. A split and merge segmentation procedure based on both 3-D motion and disparity is then used to determine regions with similar motion and depth parameters. The segmentation part of the algorithm is interleaved with the estimation part in order to optimize the coding performance of the segmentation procedure. This is combined with an efficient depth modeling method that offers full depth information at the decoder site. In order to reduce the computational load of the merge phase of the algorithm, a fast algorithm is implemented which speeds up the merge procedure considerably. Motion and depth model parameters are then quantized and transmitted to the decoder along with the segmentation information. An object-based motion-compensating scheme is then used to reconstruct the original image, based on the objects created by the segmentation approach.

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Dimitrios Tzovaras, Nikos Grammalidis, and Michael G. Strintzis "Joint three-dimensional motion/disparity segmentation for object-based stereo image sequence coding," Optical Engineering 35(1), (1 January 1996). https://doi.org/10.1117/1.600884

Published: 1 January 1996

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