RU2022133873A - METHOD AND DEVICE FOR VIDEO ENCODING/DECODING USING IN-BLOCK COPYING MODE AND METHOD FOR BIT STREAM TRANSMISSION - Google Patents

Claims (68)

1. An image decoding device, comprising: Memory device; and at least one processor wherein said at least one processor is configured to: determining a prediction mode of the current block based on the prediction mode information of the current block obtained from the bitstream; obtaining a block of transform coefficients of the current block from the bitstream; dequantizing the transform coefficient to generate a block of dequantized transform coefficients; determining a transform kernel for a block of dequantized transform coefficients; and generating a residual block for the current block by performing an inverse transform on the block of dequantized transform coefficients based on the determined transform kernel, wherein the transformation kernel is determined based on the transformation kernel index information, transformation kernel index information is obtained from the bitstream based on whether the current block's prediction mode is an inter prediction mode or an intra prediction mode, and the transformation kernel index information is defined as a value indicating a predetermined transformation kernel without obtaining it from the bitstream based on the fact that the prediction mode of the current block is an intra-block copy (IBC) mode. 2. The image decoding device according to claim 1, in which the predefined transformation kernel is one of DCT2 and DCT7. 3. The image decoding device according to claim 1, wherein determining the transform kernel for the block of dequantized transform coefficients comprises extracting the transform kernel of the current block based on the first flag information indicating whether or not the transform kernel index information of the current block encoded in intra prediction mode can be included in the bitstream, and second flag information indicating whether or not transformation kernel index information of the current block encoded in the inter prediction mode can be included in the bitstream, and wherein the first flag information and the second flag information are obtained from the bit stream. 4. The image decoding device according to claim 3, wherein, based on the fact that the first flag information and the second flag information have a first value indicating that the transformation kernel index information is not included in the bitstream, and the prediction mode of the current block is the IBC mode, the transformation kernel of the current block is derived based on the width and height of the current block. 5. The image decoding device according to claim 4, in which the transformation kernel of the current block includes a horizontal transformation kernel and a vertical transformation kernel, wherein the horizontal transformation kernel of the current box is determined based on whether or not the width of the current box is within a predetermined range, and a comparison between the width and height of the current box, and wherein the vertical transformation kernel of the current box is determined based on whether or not the height of the current box is within a predetermined range, and a comparison between the width and the height of the current box. 6. The image decoding device according to claim 3, in which, based on at least one of the first flag information or the second flag information has a second value indicating that the transform kernel index information can be included in the bitstream, and the prediction mode of the current block is an IBC mode, the transformation kernel of the current block is retrieved based on the transformation kernel index information, and the transformation kernel index information is not obtained from the bitstream, but is extracted as a predetermined value. 7. The image decoding device according to claim 1, in which, based on the fact that the transformation core index information is not obtained from the bit stream, the transformation core index information is extracted as a predetermined value, wherein, on the basis that the prediction mode of the current block is an IBC mode that refers to a block located in the same frame as the current block and decoded before the current block, the transform kernel index information is extracted as the first value, and wherein, on the basis that the prediction mode of the current block is a prediction mode other than the IBC mode, the transformation kernel index information is extracted as a second value different from the first value. 8. An image encoding device, comprising: Memory device; and at least one processor wherein said at least one processor is configured to: selecting a prediction mode for the current block; generating a prediction block for the current block based on the selected prediction mode; generating a residual block for the current block based on the prediction block; selecting a transform kernel to transform the residual block based on the prediction mode; transforming the residual block based on the selected transform kernel to generate a block of transform coefficients; quantizing the block of transform coefficients to generate a block of quantized transform coefficients; and encoding a block of quantized transform coefficients to form a bitstream, wherein the transform kernel index information of the transform kernel used to transform the residual block is encoded into the bit stream based on whether the prediction mode of the current block is an inter prediction mode or an intra prediction mode, and wherein the transformation kernel index information is defined as a value indicating a predetermined transformation kernel without encoding it into a bitstream based on the prediction mode of the current block being an intra-block copy (IBC) mode. 9. The image encoding device according to claim 8, in which the first flag information indicating whether or not the transformation kernel index information of the current block encoded in the intra prediction mode can be included in the bit stream, and the second flag information indicating whether or not the transformation kernel index information of the current block encoded in inter prediction mode, included in the bitstream, included in the bitstream, in which, based on at least one of the first flag information or the second flag information has a second value indicating that the transform kernel index information can be included in the bitstream, and the prediction mode of the current block is the IBC mode, the transformation of the residual block is performed based on a predetermined transformation kernel, and the transformation kernel index information for the predetermined transformation kernel used to transform the residual block is not included in the bitstream. 10. The image encoding device according to claim 9, wherein, on the basis that the first flag information and the second flag information have a first value, indicating that the transform kernel index information is not included in the bitstream, and the prediction mode of the current block is the IBC mode: the transformation of the residual block is performed based on a predefined transformation kernel, a predefined transform kernel is retrieved based on the width and height of the current block, and the transformation kernel index information for the predetermined transformation kernel used to transform the residual block is not included in the bitstream. 11. A device for transmitting a bit stream generated by an image encoding method performed by an image encoding device, comprising: Memory device; and at least one processor wherein at least one processor controls the device for transmitting the bit stream, wherein the image encoding method comprises: selection of the prediction mode of the current block; generating a prediction block for the current block based on the selected prediction mode; generating a residual block for the current block based on the prediction block; selecting a transform kernel for transforming the residual block based on the prediction mode; transforming the residual block based on the selected transform kernel to generate a block of transform coefficients; quantizing the block of transform coefficients to generate a block of quantized transform coefficients; and encoding a block of quantized transform coefficients to form a bit stream, wherein the transform kernel index information of the transform kernel used to transform the residual block is encoded into the bit stream based on whether the prediction mode of the current block is an inter prediction mode or an intra prediction mode, and wherein the transformation kernel index information is defined as a value indicating a predetermined transformation kernel without encoding it into a bitstream based on the prediction mode of the current block being an intra-block copy (IBC) mode.