Title :
Motion-and aliasing-compensated prediction using a two-dimensional non-separable adaptive Wiener interpolation filter
Author :
Vatis, Y. ; Edler, B. ; Nguyen, D.T. ; Ostermann, J.
Author_Institution :
Institut fuer Theor. Nachrichtentechnik und Informationsverarbeitung, Hannover Univ., Germany
Abstract :
In the context of prediction with fractional-pel motion vector resolution it was shown, that aliasing components contained in an image signal are limiting the prediction accuracy obtained by motion compensation. In order to consider aliasing, quantisation and motion estimation errors, camera noise, etc., we analytically developed a two-dimensional (2D) non-separable interpolation filter, which is calculated for each frame independently by minimising the prediction error energy. For every fractional-pel position to be interpolated, an individual set of 2D filter coefficients is determined. As a result, a coding gain of up to 1,2 dB for HDTV-sequences and up to 0,5 dB for CIF-sequences compared to the standard H.264/AVC is obtained.
Keywords :
Wiener filters; adaptive filters; image resolution; motion compensation; motion estimation; 2D nonseparable adaptive Wiener interpolation filter; H.264 standard; HDTV-sequences; aliasing-compensated prediction; camera noise; coding gain; fractional-pel motion vector resolution; image signal; motion compensation; motion estimation errors; prediction error energy; Accuracy; Adaptive filters; Cameras; Image resolution; Interpolation; Motion compensation; Motion estimation; Quantization; Signal resolution; Wiener filter;
Conference_Titel :
Image Processing, 2005. ICIP 2005. IEEE International Conference on
Print_ISBN :
0-7803-9134-9
DOI :
10.1109/ICIP.2005.1530200
