KR960033136A - Method and apparatus for encoding video signal using pixel-based motion prediction - Google Patents

Abstract

The present invention is to provide an improved pixel-by-pixel motion estimation and compensation technique using feature points. To this end, the present invention is used for a motion compensation video signal encoder, and is predicted with a current frame and a previous frame of a digital video signal. An apparatus for determining a current frame, comprising: means for selecting a plurality of pixels from all pixels included in the previous frame; Means for detecting a first set of motion vectors consisting of a motion vector representing the motion of each of the selected pixels between the current frame and the previous frame; Means for generating a second set of motion vectors for all the pixels included in the current frame using the first set of motion vectors; Means for assigning each pixel value of the previous frame corresponding to one of the pixels of the current frame to the one pixel value of the current frame through each of the second set of motion vectors.

Description

Method and apparatus for encoding video signal using pixel-based motion prediction

Since this is an open matter, no full text was included.

1 is a block diagram of an image encoder including a current frame prediction block according to an exemplary embodiment of the present invention.

FIG. 2 is a detailed block diagram of the current frame prediction block shown in FIG.

Claims (8)

An apparatus for determining a motion compensation video signal encoder and determining a predicted current frame having a current frame and a previous frame of a digital video signal, comprising: means for selecting a plurality of pixels from all pixels included in the previous frame; Means for detecting a first set of motion vectors consisting of a motion vector representing the motion of each of the selected pixels between the reframe and the previous frame; Means for generating a second set of motion vectors for all the pixels included in the current frame using the first set of motion vectors; Means for assigning each pixel value of the previous frame corresponding to one of the pixels of the current frame through each of the second set of motion vectors to the one pixel value of the current frame. 2. The apparatus of claim 1, wherein the means for generating comprises: means for assigning the first set of motion vectors as part of the second set for pixels of the current frame, corresponding to selected pixels of the previous frame; Means for determining a motion vector of the remaining portion of the second set by averaging at least one motion vector included in the portion of the second set of motion vectors. A method for determining a predicted current frame using a current frame and a previous frame of a digital video signal, which is used in a motion compensation video signal encoder, the method comprising: (a) selecting a plurality of pixels from all pixels included in the previous frame; ; (b) detecting a first set of motion vectors comprising motion vectors representing the motion of each of the selected pixels between the current frame and the previous frame; (c) generating a second set of motion vectors for all the pixels included in the current frame using the first set of motion vectors; (d) assigning each pixel value of the previous frame corresponding to one of the pixels of the current frame through each of the second set of motion vectors to the one pixel value of the current frame; . 4. The method of claim 3, wherein step (c) comprises: (c1) assigning the first set of motion vectors to a portion of the second set of pixels of the current frame, corresponding to the selected pixels of the previous frame. Doing; (c2) determining a motion vector of the remaining portion of the second set by averaging at least one motion vector included in the portion of the second set of motion vectors. A device used for a motion compensated video signal decoder, the apparatus for determining a predicted current frame having a first set of motion vectors transmitted from a digital video signal and an encoder of a previous frame, wherein the encoder includes all pixels included in the previous frame. And means for detecting a first set of motion vectors consisting of means for selecting a plurality of pixels in a motion vector and a motion vector representing the motion of each of the selected pixels between the current frame and the previous frame. Means for selecting a plurality of pixels from all pixels included in the previous frame; Means for generating a second set of motion vectors for all the pixels included in the current frame using the first set of motion vectors; Means for assigning each pixel value of the previous frame corresponding to one of the pixels of the current frame to each one of the pixels of the current frame through each of the second set of motion mectors. 6. The apparatus of claim 5, wherein the means for generating comprises: means for assigning the first set of motion vectors as part of the second set of pixels of the current frame, corresponding to selected pixels of the previous frame; Means for determining a motion vector of the remaining portion of the second set by averaging at least one motion vector included in the portion of the second set of motion vectors. A method for determining a current frame predicted using a motion compensation video signal decoder and having a digital video signal of a previous frame and a first set of motion vectors transmitted from the decoder, wherein the encoder includes all pixels included in the previous frame. Means for selecting a plurality of pixels in the frame and means for detecting the first set of motion vectors consisting of a motion vector representing the motion of each of the selected pixels between the current frame and the previous frame. Selecting a plurality of pixels from all pixels included in a previous frame; Balsing a second set of motion vectors for all the images included in the current frame using the first set of motion vectors; Assigning each pixel value of the previous frame corresponding to one of the pixels of the current frame to the one pixel value of the current frame through each of the second set of motion vectors. 8. The method of claim 7, wherein the generating step comprises: assigning the first set of motion vectors to a portion of the second set of pixels of the current frame, corresponding to the selected pixels of the previous frame. Steps; Determining a motion vector of the remaining portion of the second set by averaging at least one motion vector included in the portion of the second set of motion vectors. ※ Note: The disclosure is based on the initial application.