These features include the full-pixel position filter and the filter offset, the radial-shaped 12-position filter support, and a RD-based filter selection.

Abstract. H.264/AVC uses motion compensated prediction with fractional-pixel precision to reduce temporal redundancy of the input video signal.

H.264/AVC uses motion compensated prediction with fractional-pixel precision to reduce temporal redundancy of the input video signal.

These features include the full-pixel position filter and the filter offset, the radial-shaped 12-position filter support, and a RD-based filter selection.

In AIF, the interpolation filter is calculated for each slice by minimizing the prediction error energy. AIF offers large coding gain over H.264, especially on ...

In order to improve the prediction performance in video coding, it is generally desirable to adapt interpolation filter coefficient values according to local ...

This paper presents an interpolation filter buffering structure that derives the current encoding frame's interpolation filters from the filters of previous ...

This paper presents a one pass Enhanced AIF algorithm. It allows optimal selection among previous frames' AIF with the fixed H.264 high precision filter while a ...

The fraction-pel interpolation filter varies in the video coding standards such as H.264/AVC, AVS and HEVC. Since fractional-pel motion compensation plays ...

Abstract—The fraction-pel interpolation filter varies in the video coding standards such as H.264/AVC, AVS and HEVC.