Title :
Highly scalable, low-delay video compression
Author :
Taubman, David ; Zakhor, Avideh
Author_Institution :
California Univ., Berkeley, CA, USA
Abstract :
We propose a class of scalable video compression algorithms, within which compression performance may be exchanged for end-to-end delay. Each of the algorithms in this class produces a highly scalable bit stream, from which subsets may be extracted for compatibility with a wide range of display frame sizes, frame rates and bit rate constraints. Moreover, with modest end-to-end delay, the reconstructed video quality associated with any of these subsets is often superior to that obtained using an implementation of the inherently non-scalable MPEG-1 compression standard, operated with equivalent resolution and bit rate constraints. We describe scalable compressed data structures based on a layered substream abstraction, with simple, generic scaling operations, for both constant bit rate and constant distortion scaling criteria
Keywords :
abstract data types; data compression; data structures; delays; image reconstruction; image resolution; image sequences; video coding; MPEG-1 compression standard; bit rate constraints; compatibility; compression performance; constant bit rate scaling; constant distortion scaling; display frame sizes; end-to-end delay; frame rates; generic scaling operations; image resolution; layered substream abstraction; low-delay video compression; reconstructed video quality; scalable bit stream; scalable compressed data structures; scalable video compression algorithms; video coding; Bit rate; Decoding; Delay; Displays; Predictive coding; Rate distortion theory; Scalability; Streaming media; Transform coding; Video compression;
Conference_Titel :
Image Processing, 1994. Proceedings. ICIP-94., IEEE International Conference
Conference_Location :
Austin, TX
Print_ISBN :
0-8186-6952-7
DOI :
10.1109/ICIP.1994.413413
