Efficient Debanding Filtering for Inverse Tone Mapped High Dynamic Range Videos

Abstract

When a low or standard dynamic range video is inverse tone mapped to high dynamic range (HDR), there can be banding artifacts in the output HDR video. We design a highly integrated architecture that can detect and alleviate banding artifacts while preserving true edges and details in an extremely efficient way. This is achieved by a 7-tap edge-aware selective sparse filter. Coding artifacts, such as blocky artifacts, can also be reduced by this filter. The filter includes some parameters that depend on the strengths of the banding artifacts. A parameter selection mechanism is presented which considers smoothness of the banding regions and fidelity of the filtering output. The filter yields significant PSNR gain at the regions of artifacts. Subjective tests demonstrate the great quality improvement achieved by the proposed filter, compared to the quality before filtering. The visual quality provided by the filter is better than or similar to that of algorithms which are far more complex.