Author :
Vasconcelos, Nuno ; Lippman, Andrew
Author_Institution :
Media Lab., MIT, Cambridge, MA, USA
Abstract :
Current digital video representations emphasize compression efficiency, lacking some of the flexibility required for interactive manipulation of digital bitstreams. We present a video representation which can encompass both space and time, providing a temporally coherent description of video sequences. The video sequence is segmented into its component objects, and the trajectory of each object throughout the sequence is described parametrically, according to a spatiotemporal motion model. Since the motion model is a continuous function of time, the video representation becomes frame-rate independent and the temporal resolution a user-definable parameter. i.e. the traditional sequence of frames, with the temporal structure hardcoded into the bitstream at the time of production, is replaced by a collection of scene snapshots assembled on the fly by the decoder. This enables random access and temporal scalability, the major building blocks for interactivity
Keywords :
data compression; decoding; image representation; image resolution; image segmentation; image sequences; interactive video; motion estimation; video coding; component objects; compression efficiency; continuous time function; decoder; digital bitstreams; digital video representations; frame-free video; frame-rate independent; interactive manipulation; object trajectory; random access; scene snapshots; spatiotemporal motion model; temporal resolution; temporal scalability; temporally coherent description; user-definable parameter; video sequences; Decoding; Delay estimation; Image motion analysis; Image reconstruction; Laboratories; Layout; Motion estimation; Space technology; Spatiotemporal phenomena; Video sequences;
Conference_Titel :
Image Processing, 1996. Proceedings., International Conference on
Conference_Location :
Lausanne
Print_ISBN :
0-7803-3259-8
DOI :
10.1109/ICIP.1996.560509
