Title :
Multiscale analysis of movies for depth recovery
Author_Institution :
CEREMADE, Univ. Paris Dauphine, France
Abstract :
We reformulate the “shape from motion” problem in terms of movie processing: how to focus the redundant depth information of a noisy image sequence into a perfect depth-coherent movie? We give an answer in the simple case of a straight movement of the camera parallel to the focal plane. From an axiomatic approach, we deduce a unique multiscale analysis of movies compatible with the depth recovery, and study its properties both in the image and the scene space. In particular, we show that this movie filtering preserves the geometrical constraints satisfied by ideal movies of rigid 3D scenes. We also study a numerical scheme in agreement with the theoretical axioms: and produce some experiments on synthetic noisy movies
Keywords :
cinematography; filtering theory; image sequences; motion estimation; noise; 3D scenes; depth recovery; depth-coherent movie; experiments; focal plane; geometrical constraints; image space; movie filtering; movie processing; multiscale analysis; noisy image sequence; numerical scheme; redundant depth information; scene space; shape from motion; straight camera movement; synthetic noisy movies; theoretical axioms; Cameras; Equations; Filtering; Focusing; Image analysis; Layout; Motion pictures; Navigation; Orbital robotics; Working environment noise;
Conference_Titel :
Image Processing, 1995. Proceedings., International Conference on
Conference_Location :
Washington, DC
Print_ISBN :
0-8186-7310-9
DOI :
10.1109/ICIP.1995.537571
