Shuffled Discrete Sine Transform in Inter‐Prediction Coding

Video compression exploits statistical, spatial, and temporal redundancy, as well as transform and quantization. In particular, the transform in a frequency domain plays a major role in energy compaction of spatial domain data into frequency domain data. The high efficient video coding standard uses the type‐II discrete cosine transform (DCT‐II) and type‐VII discrete sine transform (DST‐VII) to improve the coding efficiency of residual data. However, the DST‐VII is applied only to the Intra 4 × 4 residual block because it yields relatively small gains in the larger block than in the 4 × 4 block. In this study, after rearranging the data of the residual block, we apply the DST‐VII to the inter‐residual block to achieve coding gain. The rearrangement of the residual block data is similar to the arrangement of the basis vector with a the lowest frequency component of the DST‐VII. Experimental results show that the proposed method reduces the luma‐chroma (Cb+Cr) BD rates by approximately 0.23% to 0.22%, 0.44% to 0.58%, and 0.46% to 0.65% for the random access, low delay B, and low delay P configurations, respectively.