Weighted-prediction-based color gamut scalability extension for the H.265/HEVC video codec

Color gamut scalability refers to coding a video in a layered manner where the base and enhancement layers are coded in different color gamut spaces. Color gamut scalability and its relationship with spatial scalability are currently being studied for the scalable extension of HEVC (SHVC) to enable coding of ultra-high definition content having BT.2020 color gamut with 10-bit precision as an enhancement layer and high definition content having BT.709 color gamut with 8-bit precision as the base layer. In this paper, we propose to use the weighted prediction tool of the SHVC standard to map the color gamut of the base layer to the enhancement layer. In addition, we also propose a high-precision bit-depth mapping of the base layer to the enhancement layer that jointly performs upsampling with a bit-depth increase. Simulation results show that these two schemes improve the coding efficiency of the All Intra and Random Access configurations by about 6.8% and 3.6% on average, respectively, compared to a basic scheme where the bit-depth of the base layer is increased by simple bit-shifting. These gains are achieved by imposing no changes to the SHVC standard; hence make the proposed method very useful for practical use-cases as well.