Adaptive filtering based upon boundary strength
First Claim
1. An image decoding apparatus filtering a boundary between two adjacent blocks in a reconstructed image selectively, comprising:
- a motion compensation prediction means for conducting motion compensation prediction for each of blocks to be decoded by using the reconstructed image,an inverse transformation means for conducting inverse transformation for the data of the blocks to be decoded,a determination means for determining a filtering strength and whether or not to conduct filtering, with respect to each of the boundaries, wherein the determination means determines that;
(1) filtering is conducted when both the adjacent blocks are not intra-coded and a nonzero transform coefficient is coded in at least one of the two adjacent blocks,(2) filtering is not conducted when both of the two adjacent blocks are not intra-coded, a nonzero transformation coefficient is not coded in both of the two adjacent blocks, the two adjacent blocks are predicted by a same reference frame, and an absolute value of a difference between motion vectors of the two adjacent blocks is smaller than a specified threshold value,wherein, the determined filtering strength is used to control a pixel value adaptation range in the filtering conducted when both the adjacent blocks are not intra-coded and a nonzero transform coefficient is coded in at least one of the two adjacent blocks.
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Accused Products
Abstract
An image decoding apparatus that includes a motion compensation prediction circuit configured to conduct motion compensation prediction for each of blocks to be decoded by using the reconstructed image, an inverse transformation circuit configured to conduct inverse orthogonal transformation for the data of the blocks to be decoded, and a determination circuit configured to determine a filtering strength and whether or not to conduct filtering, with respect to each of the boundaries. In addition, the determining circuit is configured to determine filtering is conducted when at least one of the two adjacent blocks is intra-coded, and filtering is not conducted when both of the two adjacent blocks are not intra-coded, a non-zero transformation coefficient is not coded in both of the two adjacent blocks, the two adjacent blocks are predicted by the same reference frame, and an absolute value of a difference between motion vectors of the two adjacent blocks is smaller than a specified threshold value.
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Citations
1 Claim
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1. An image decoding apparatus filtering a boundary between two adjacent blocks in a reconstructed image selectively, comprising:
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a motion compensation prediction means for conducting motion compensation prediction for each of blocks to be decoded by using the reconstructed image, an inverse transformation means for conducting inverse transformation for the data of the blocks to be decoded, a determination means for determining a filtering strength and whether or not to conduct filtering, with respect to each of the boundaries, wherein the determination means determines that; (1) filtering is conducted when both the adjacent blocks are not intra-coded and a nonzero transform coefficient is coded in at least one of the two adjacent blocks, (2) filtering is not conducted when both of the two adjacent blocks are not intra-coded, a nonzero transformation coefficient is not coded in both of the two adjacent blocks, the two adjacent blocks are predicted by a same reference frame, and an absolute value of a difference between motion vectors of the two adjacent blocks is smaller than a specified threshold value, wherein, the determined filtering strength is used to control a pixel value adaptation range in the filtering conducted when both the adjacent blocks are not intra-coded and a nonzero transform coefficient is coded in at least one of the two adjacent blocks.
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Specification