N. Paragios and Deriche R., "Geodesic active regions for tracking", Proc. of Computer Vision and Mobile Robotics Workshop, Santorini, Greece, 1998. Home/Search Document Details and Download
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3D Articulated Models and Multi-View Tracking with Physical.. - Delamarre, Faugeras (Correct)
....of the person is dicult to use (too blurred and noisy) We use an algorithm based on geodesic active contours. The contours evolve according to a PDE that incorporates optical ow and intensity measures and converge towards the silhouette of the moving person, see gure 9. For more details, see [23, 25, 24]. Projection of the 3D model In order to compare the 3D model with the contours segmented in the images, we project the 3D model in each image. The di erences between the two projections give us an estimation of the di erences between the pose of the 3D model and the real pose. To do so, we ....
N. Paragios and R. Deriche. Geodesic active regions for tracking. In ICCV, pages 688-694, Corfu, Greece, 1999.
3D Articulated Models and Multi-View Tracking with Physical.. - Delamarre, Faugeras (Correct)
....the person is di#cult to use (too blurred and noisy) We use an algorithm based on geodesic active contours. The contours evolve according to a PDE that incorporates optical flow and intensity measures and converge towards the silhouette of the moving person, see figure 9. For more details, see [23, 25, 24]. Projection of the 3D model In order to compare the 3D model with the contours segmented in the images, we project the 3D model in each image. The di#erences between the two projections give us an estimation of the di#erences between the pose of the 3D model and the real pose. To do so, we ....
N. Paragios and R. Deriche. Geodesic active regions for tracking. In ICCV, pages 688--694, Corfu, Greece, 1999.
3D Articulated Models and Multi-View Tracking with Physical.. - Delamarre, Faugeras (1999) (Correct)
....active contours. The contours evolve according to a PDE that incorporates optical AEow and intensity measures and converge towards the silhouette of the moving person, see gure 9. For more details, and because it is not the purpose of this article to precisely explain this segmentation, see [19, 21, 20]. Projection of the 3D model In order to compare the 3D model with the contours segmented in the images, we are going to project the 3D model in each image. The dioeerences between the two projections will give us an estimation of the dioeerences between the pose of the 3D model and the real ....
N. Paragios and R. Deriche. Geodesic active regions for tracking. In ICCV, pages 688694, Corfu, Greece, 1999.
Video Analysis of Human Dynamics - a Survey - Wang, Singh (Correct)
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N. Paragios and Deriche R., "Geodesic active regions for tracking", Proc. of Computer Vision and Mobile Robotics Workshop, Santorini, Greece, 1998.
Video Analysis of Human Dynamics - a Survey - Wang, Singh (Correct)
No context found.
N. Paragios and Deriche R., "Geodesic active regions for tracking", Proc. of Computer Vision and Mobile Robotics Workshop, Santorini, Greece, 1998.
Augmenting Images of Non-Rigid Scenes Using Point.. - Bartoli, von.. (2004) (Correct)
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N. Paragios and R. Deriche. Geodesic active regions for tracking. Proceedings of the 7th International Conference on Computer Vision, Kerkyra, Greece, pages 688--694, 1999.
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