Title :
Extended Spatial Scalability : A Generalization of Spatial Scalability for Non Dyadic Configurations
Author :
Francois, E. ; Vieron, J.
Author_Institution :
Thomson R&D France, Cesson-Sevigne, France
Abstract :
Spatial scalability is mainly considered for addressing various devices and displays resolutions. This feature is of high interest for many applications, such as TV distribution over DSL networks, video in wireless home network or content production. In its basic design, SVC is defined for dyadic spatial scalability. This contribution relates to extended spatial scalability (ESS), a generalization of SVC spatial scalability, which introduces new scalability modes such as cropping and non-dyadic scaling. It describes the ESS inter-layer motion and texture prediction processes. Performance comparisons with alternate solutions, illustrating the efficiency of the proposed tools, are provided. Finally complexity and profiling issues are discussed.
Keywords :
image resolution; image texture; video coding; ESS interlayer motion; SVC; display resolution; extended spatial scalability; nondyadic configuration; scalable video coding; texture prediction process; DSL; Displays; Electronic switching systems; Home automation; ISO standards; Production; Scalability; Spatial resolution; Static VAr compensators; TV; ISO; ITU; Video coding; standardization;
Conference_Titel :
Image Processing, 2006 IEEE International Conference on
Conference_Location :
Atlanta, GA
Print_ISBN :
1-4244-0480-0
DOI :
10.1109/ICIP.2006.312363
