Author :
Bouthemy, Patrick ; Gelgon, Marc ; Ganansia, Fabrice
Abstract :
This paper describes an original approach to partitioning of a video document into shots. Instead of an interframe similarity measure which is directly intensity based, we exploit image motion information, which is generally more intrinsic to the video structure itself. The proposed scheme aims at detecting all types of transitions between shots using a single technique and the same parameter set, rather than a set of dedicated methods. The proposed shot change detection method is related to the computation, at each time instant, of the dominant image motion represented by a two-dimensional affine model. More precisely, we analyze the temporal evolution of the size of the support associated to the estimated dominant motion. Besides, the computation of the global motion model supplies by-products, such as qualitative camera motion description, which we describe in this paper, and other possible extensions, such as mosaicing and mobile zone detection. Results on videos of various content types are reported and validate the proposed approach
Keywords :
image representation; image sequences; motion estimation; video cameras; video signal processing; camera motion characterization; global motion model; image motion information; image motion representation; image sequences; mobile zone detection; mosaicing; motion estimation; parameter set; shot change detection; temporal evolution; two-dimensional affine model; unified approach; video document partitioning; video structure; Biomedical imaging; Cameras; Gunshot detection systems; Image motion analysis; Indexing; Motion analysis; Motion detection; Motion estimation; Motion measurement; Visualization;
