KR970009387A - Image Coding System Using Adaptive Vector Quantization - Google Patents

Abstract

The present invention relates to an image encoding system using adaptive vector quantization capable of realizing efficient encoding of an input image without motion estimation compensation. To this end, the present invention provides a plurality of consecutive images on a time axis by sequentially delaying the input image. A frame signal is generated, and each of a plurality of consecutive frames on the immediately preceding time axis with respect to the current frame is divided into 8x8 size DCT blocks, and the divided angles present at positions corresponding to each other in time between the respective frames. 3D DCT is applied to the DCT blocks, and the 3D DCT transform coefficient blocks are subdivided into bands, and then the scalar quantization and the vector quantization using the code table are adaptively applied to consider the bands. Motion Estimation in the Conventional Coding System Which Was the Largest Factor of Increase By eliminating the compensation means, it is possible to realize efficient compression protection while simplifying the structure of the entire system without affecting the efficiency of encoding.

Description

Image Coding System Using Adaptive Vector Quantization

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

1 is a block diagram of an image encoding system using adaptive vector quantization according to an embodiment of the present invention.

Claims (7)

An image encoding system for compressing and transmitting an input image through discrete cosine transform, quantization, and variable length encoding to a transmitter, comprising: a frame memory (100) for storing the input image to be compressed and encoded; Frame delay means (110) for generating a plurality of frame signals continuous on a time axis by sequentially delaying the input image provided from the frame memory in multiple stages; Dividing the current frame provided from the frame memory and the plurality of frames provided from the frame delay means and continuing on the time axis immediately preceding the current frame into predetermined DCT blocks, and mutually temporally intersecting the respective frames. Block extracting means (120) for sequentially outputting the divided DCT blocks existing at corresponding positions in consideration of a time axis; By performing discrete cosine transform on each of the divided DCT blocks provided from the block extracting means, converting them into respective DCT transform coefficients, and re-dividing each of the DCT blocks converted into the DCT transform coefficients for each band. DCT means 130 for generating a plurality of subblocks of size; A scalar quantization is performed by inputting each subblock corresponding to a lower portion of the plurality of subblocks provided from the DCT block to convert to a quantized DCT transform coefficient, and variable length coding is performed on the quantized DCT transform coefficient. Vector quantization using a code table 162 having a plurality of codewords for each of the first coding means 140 and 150 to perform, and each of the subblocks corresponding to the high range of the plurality of subblocks provided from the DCT block. Second encoding means (160) for outputting codeword values corresponding to the respective subblocks by performing a? And code data for the variable length coded subblocks of the low-band portion provided from the first encoding means and remaining subblocks except for each subblock corresponding to the low-band portion provided from the second encoding means. Image coding system using adaptive vector quantization comprising multiplexing means (170) for multiplexing the codeword values for the transmitter and providing them to the transmitter. 2. The adaptation according to claim 1, wherein the frame delay means includes three frame delayers, and generates three previous frames that are continuous on the time axis with respect to the current frame and provides them to the block extracting means. Image Coding System Using Vector Quantization. The method of claim 2, wherein the block extracting means sequentially outputs four DCT blocks of 8x8 size corresponding to each other on a time axis in a plurality of frames including the current frame in consideration of the time axis. Image coding system using adaptive vector quantization. 4. The image encoding system of claim 3, wherein the DCT means re-divides the DCT blocks into four subblocks per band. 5. The method of claim 4, wherein the lowest subblock of each of the four subblocks formed by subdividing the one DCT block is encoded by the first encoding unit, and the remaining subblocks except the lowest subblock are encoded. And an image encoding system using adaptive vector quantization, which is encoded by the second encoding means. 4. The image encoding system of claim 3, wherein the DCT means re-divides the DCT blocks into 16 subblocks for each band. 7. The method of claim 6, wherein at least one low-pass subblock of at least one quarter of the sixteen subblocks of the sixteen subblocks formed by re-dividing the DCT block is encoded by the first encoding means. And encoding the remaining subblocks other than the at least one low-pass subblock through the second encoding means. ※ Note: The disclosure is based on the initial application.