Title :
Scalable coding based on adaptive subband for interlaced video sequences
Author :
Sawada, Katsutoshi ; Yoshida, Takehiro
Author_Institution :
Aichi Inst. of Technol., Toyota, Japan
Abstract :
Resolution scalability refers to a picture coding property where pictures at lower different resolutions can be reconstructed by decoding only the subsets of a single coded bit-stream, while the full resolution picture is reconstructed by decoding the total bit-stream. This paper presents a resolution scalable video coding scheme for interlaced video sequences. The proposed scalable coding scheme employs adaptive in-field/in-frame subband for spatial scalability, where in-field subband and in-frame subband are adaptively used for moving portions and stationary portions respectively. It also employs adaptive field/frame subsampling for temporal scalability. Experimental results have demonstrated that the proposed adaptive subband gives better picture quality especially for reconstructed lower resolution pictures compared to non adaptive subband
Keywords :
adaptive signal processing; decoding; image reconstruction; image resolution; image sampling; image sequences; motion compensation; prediction theory; video coding; adaptive field/frame subsampling; adaptive in-field/in-frame subband; bit rate reduction; coded bit-stream; decoding; experimental results; interlaced video sequences; motion compensation prediction; picture coding; picture quality; picture reconstruction; resolution scalability; scalable video coding; spatial scalability; temporal scalability; Bit rate; Decoding; Digital TV; Image databases; Image resolution; Scalability; Scanning probe microscopy; Spatial resolution; Video coding; Video sequences;
Conference_Titel :
Image Processing, 1997. Proceedings., International Conference on
Conference_Location :
Santa Barbara, CA
Print_ISBN :
0-8186-8183-7
DOI :
10.1109/ICIP.1997.638848
