RU2021125271A - Shape-ADAPTIVE DISCRETE COSINE TRANSFORM FOR GEOMETRIC PARTITION WITH ADAPTIVE NUMBER OF AREAS - Google Patents

Claims (80)

1. A decoder containing a circuit configured to: receiving a bitstream; determining a first region, a second region, and a third region of the current block according to the geometric partitioning mode; And decoding the current block using the inverse discrete cosine transform for each of the first region, second region, and third region. 2. The decoder of claim 1, wherein the current block has a size of 128×128 or 64×64. 3. The decoder of claim 1, wherein a set of coefficients for inverse transform of the first region, second region, and/or third region is signaled in the bitstream. 4. The decoder according to claim 1, additionally configured to: determining whether a geometric partitioning mode is enabled; determining the first line segment for the current block; And determining a second line segment for the current block; wherein: decoding the current block includes recovering pixel data using the first line segment and the second line segment; and the first line segment and the second line segment divide the current block into a first region, a second region, and a third region. 5. The decoder of claim 4, wherein the first line segment is indicative of the first region and the second line segment is indicative of the second region and the third region. 6. The decoder of claim 4, wherein restoring the pixel data includes calculating a predictor for the first region using an associated motion vector contained in the bitstream. 7. The decoder according to claim 1, further comprising: an entropy decoder processor, configured to receive the bitstream and decode the bitstream into quantized coefficients; an inverse quantization and inverse transform processor, configured to process the quantized coefficients, including performing an inverse discrete cosine transform in accordance with the determined coding transform type; deblocking filter; framebuffer; And intrablock prediction processor. 8. The decoder of claim 1, wherein the bit stream includes a parameter indicating whether the geometric partitioning mode is enabled for the current block. 9. The decoder of claim 1, wherein the current block forms part of a quadtree plus a binary decision tree. 10. The decoder of claim 1, wherein the current block is not a leaf node of a quadtree plus a binary decision tree. 11. The decoder of claim 1, wherein the current block is a coding tree unit or coding unit. 12. The decoder of claim 1, wherein the first region is a coding unit or a prediction unit. 13. A decoder containing a circuit configured to: receiving a bitstream; determining a first region, a second region, and a third region of the current block according to the geometric partitioning mode; determining, from a signal contained in the bitstream, an encoding transform type for decoding each of the first region, second region, and/or third region, wherein the encoding transform type is indicative of at least an inverse block discrete cosine transform and an inverse adaptive discrete cosine transform; And decoding the current block, wherein decoding the current block includes using a specific transform type to inverse transform for each of the first region, second region, and/or third region. 14. The decoder of claim 13, wherein the current block has a size of 128x128 or 64x64. 15. The decoder of claim 13, wherein the set of coefficients for demapping the first region, second region, and/or third region is transmitted in the bitstream. 16. The decoder according to claim 13, further configured to: determining whether a geometric partitioning mode is enabled; determining the first line segment for the current block; And determining a second line segment for the current block; wherein: decoding the current block includes recovering pixel data using the first line segment and the second line segment; and the first line segment and the second line segment divide the current block into a first region, a second region, and a third region. 17. The decoder of claim 16, wherein the first line segment is indicative of the first region and the second line segment is indicative of the second region and the third region. 18. The decoder of claim 16, wherein restoring the pixel data includes calculating a predictor for the first region using an associated motion vector contained in the bitstream. 19. The decoder according to claim 13, further comprising: an entropy decoder processor, configured to receive the bitstream and decode the bitstream into quantized coefficients; an inverse quantization and inverse transform processor, configured to process the quantized coefficients, including performing an inverse discrete cosine transform in accordance with the determined coding transform type; deblocking filter; framebuffer; And intrablock prediction processor. 20. The decoder of claim 13, wherein the bitstream includes a parameter indicating whether the geometric partitioning mode is enabled for the current block. 21. The decoder of claim 13, wherein the current block forms part of a quadtree plus a binary decision tree. 22. The decoder of claim 13, wherein the current block is not a leaf node of a quadtree plus a binary decision tree. 23. The decoder of claim 13, wherein the current block is a coding tree unit or coding unit. 24. The decoder of claim 13, wherein the first region is a coding unit or a prediction unit. 25. A method comprising the steps of: receiving, by means of a decoder, a bitstream; determining the first region, the second region and the third region of the current block in accordance with the mode of geometric partitioning; determining, from the signal contained in the bitstream, an encoding transform type for decoding the first region, the second region, and/or the third region, the encoding transform type being at least an inverse block discrete cosine transform or an inverse adaptive discrete cosine transform; And decoding the current block, wherein the step of decoding the current block includes using the determined transform type to inverse transform for each of the first region, second region, and/or third region. 26. The method of claim 25, wherein the current block has a size of 128x128 or 64x64. 27. The method of claim 25, wherein a set of coefficients for demapping the first region, the second region, and/or the third region is signaled in the bitstream. 28. The method of claim 25, further comprising the steps of: determine, using the decoder, whether the mode of geometric partitioning; determine, using the decoder, the first line segment for the current block; And determine, using the decoder, the second line segment for the current block; and: the step of decoding the current block includes a sub-step of restoring pixel data using the first line segment and the second line segment; wherein the first line segment and the second line segment divide the current block into a first region, a second region, and a third region. 29. The method of claim 28, wherein the first line segment defines the first region and the second line segment defines the second region and the third region. 30. The method of claim 28, wherein the step of restoring the pixel data includes a sub-step of calculating a first region predictor using an associated motion vector contained in the bitstream. 31. The method of claim 25, wherein the decoder comprises: an entropy decoder processor, configured to receive the bitstream and decode the bitstream into quantized coefficients; an inverse quantization and inverse transform processor, configured to process the quantized coefficients, including performing an inverse discrete cosine transform according to the determined coding transform type; deblocking filter; framebuffer; And intrablock-prediction processor. 32. The method of claim 25, wherein the bit stream includes a parameter indicating whether the block-level geometric partitioning mode is enabled for the block. 33. The method of claim 25, wherein the current block forms part of a quadtree plus a binary decision tree. 34. The method of claim 25, wherein the current block is not a leaf node of a quadtree plus a binary decision tree. 35. The method of claim 25, wherein the current block is a coding tree unit or coding unit. 36. The method of claim 25, wherein the first region is a coding unit or a prediction unit.