Title :
2D+t autoregressive framework for video texture completion
Author :
Racape, F. ; Doshkov, D. ; Koppel, M. ; Ndjiki-Nya, P.
Author_Institution :
Image Process. Dept., Fraunhofer Inst. for Telecommun. Heinrich Hertz Inst. (HHI), Berlin, Germany
Abstract :
In this paper, an improved 2D+t texture completion framework is proposed, providing high visual quality of completed dynamic textures. A Spatiotemporal Autoregressive model (STAR) is used to propagate the signal of several available frames onto frames containing missing textures. A Gaussian white noise classically drives the model to enable texture innovation. To improve this method, an innovation process is proposed, that uses texture information from available training frames. The proposed method is deterministic, which solves a key problem for applications such as synthesis-based video coding. Compression simulations show potential bitrate savings up to 49% on texture sequences at comparable visual quality. Video results are provided online to allow assessing the visual quality of completed textures.
Keywords :
AWGN; autoregressive processes; data compression; image texture; video coding; 2D+t autoregressive framework; Gaussian white noise; STAR model; compression simulation; dynamic textures; spatiotemporal autoregressive model; synthesis-based video coding; texture information; texture innovation process; video texture completion; visual quality; Autoregressive processes; Bit rate; Computational modeling; Image processing; Technological innovation; Video coding; Visualization; Texture completion; autoregressive model; parametric method;
Conference_Titel :
Image Processing (ICIP), 2014 IEEE International Conference on
Conference_Location :
Paris
DOI :
10.1109/ICIP.2014.7025944
