Showing papers by "Woo-Jin Han published in 2004"

Scalable video coding and decoding methods, and scalable video encoder and decoder

Abstract: Scalable video coding and decoding methods, a scalable video encoder, and a scalable video decoder. The scalable video coding method includes receiving a GOP, performing temporal filtering and spatial transformation thereon, quantizing and generating a bitstream. The scalable video encoder for performing the scalable video coding method includes a weight determination block which determines a weight for scaling. The scalable video decoding method includes dequantizing the coded image information obtained from a received bitstream, performing descaling, inverse spatial transformation, and inverse temporal filtering on the scaled transform coefficients, thereby recovering video frames. The scalable video decoder for performing the scalable video decoding method includes an inverse weighting block. The standard deviation of Peak Signal to Noise Ratios (PSNRs) of frames included in a group of pictures (GOP) is reduced so that video coding performance can be increased.

Scalable video coding method and apparatus using pre-decoder

Abstract: A method and an apparatus for controlling bitrates in an optimal manner by use of information available for use by the pre-decoder, in wavelet-based scalable video coding art using the pre-decoder. A method for controlling bitrates includes the steps of determining the amount of bits for each coding unit relative to a bitstream generated by encoding an original image so as to minimize distortion of the final image from the original image, and extracting a bitstream having the target amount of bits by truncating a part of the generated bitstream based on the determined amount of bits.

Bit-rate control method and apparatus for normalizing visual quality

Abstract: A scalable video codec includes an encoder that encodes an original moving picture; a rate control unit that allocates an optimal amount of bits for each coding unit based on a bit-rate desired by a user; a pre-decoder that receives a bit-stream and extracts a bit-stream having an appropriate amount of bits; and a decoder that decodes image sequences of the moving picture from the extracted bit-stream, so as to reconstruct the original moving picture. In particular, the present invention focuses on the operation performed in the rate control unit 340. The rate control unit operates a definition step of a bit-rate function available for use in the predecoder, a pre-summation step to thereby obtain the uniform visual quality, an approximation to determine the distortion function, and a normalization step to allow the total allocated bit-rates to be equal to a target bit-rate.

Video/image coding method and system enabling region-of-interest

Abstract: A method and apparatus for compressing a video/image using a region-of-interest (ROI), which allows only a particular region to be emphasized within a single frame during wavelet-based scalable video/image coding. The method includes generating wavelet coefficients by performing wavelet transform on an input image, rearranging the wavelet coefficients in wavelet blocks according to spatial relevancy among the wavelet coefficients, and quantizing the wavelet coefficients in each of the wavelet blocks. According to the method and apparatus, blocking artifacts occurring when an image is segmented into blocks and an ROI method is used can be remarkably decreased.

Adaptive interframe wavelet video coding method, computer readable recording medium and system therefor

Abstract: An adaptive interframe wavelet video coding method, a computer readable recording medium and system therefor are provided. The interframe wavelet video coding method includes (a) receiving a group-of-frames including a plurality of frames and determining a mode flag according to a predetermined procedure using motion vectors of boundary pixels, (b) temporally decomposing the frames included in the group-of-frames in predetermined directions in accordance with the determined mode flag, and (c) performing spatial transform and quantization on the frames obtained by performing step (b), thereby generating a bitstream. Since an appropriate temporal filtering is performed in accordance with a boundary condition, efficiency of interframe wavelet video coding is increased.

Interframe wavelet video coding method

Abstract: An interframe wavelet video coding (IWVC) method by which an average temporal distance (ATD) is minimized is provided. The IWVC method comprises receiving a group-of-frames and decomposing the group-of-frames into difference frames and first average frames between the frames in a first forward temporal direction and a backward temporal direction, wavelet-decomposing the first difference frames and the first average frames, and quantizing coefficients resulting from the wavelet-decomposition to generate a bitstream. The IWVC method provides improved video coding performance.