Cross-Color Channel Perceptually Adaptive Quantization for HEVC
This work addresses video compression efficiency for HEVC users, offering incremental improvements over existing perceptual quantization techniques.
The paper tackles the problem of improving video compression efficiency in HEVC by proposing a cross-color channel adaptive quantization scheme that adjusts quantization parameters based on spatial activity across all three color channels, achieving maximum BD-Rate reductions of up to 16.1% and decoding time reduction of 11.0% compared to existing methods.
HEVC includes a Coding Unit (CU) level luminance-based perceptual quantization technique known as AdaptiveQP. AdaptiveQP perceptually adjusts the Quantization Parameter (QP) at the CU level based on the spatial activity of raw input video data in a luma Coding Block (CB). In this paper, we propose a novel cross-color channel adaptive quantization scheme which perceptually adjusts the CU level QP according to the spatial activity of raw input video data in the constituent luma and chroma CBs; i.e., the combined spatial activity across all three color channels (the Y, Cb and Cr channels). Our technique is evaluated in HM 16 with 4:4:4, 4:2:2 and 4:2:0 YCbCr JCT-VC test sequences. Both subjective and objective visual quality evaluations are undertaken during which we compare our method with AdaptiveQP. Our technique achieves considerable coding efficiency improvements, with maximum BD-Rate reductions of 15.9% (Y), 13.1% (Cr) and 16.1% (Cb) in addition to a maximum decoding time reduction of 11.0%.