A MULTISCALE GRADIENT-BACKPROPAGATION OPTIMIZATION FRAMEWORK FOR DEFORMABLE CONVOLUTION BASED COMPRESSED VIDEO ENHANCEMENT

Deep learning based compressed video quality enhancement has raised lots of interest recently. To explore the information over multiple frames, deformable convolution has been used for temporal alignment. However, in the existing methods, the deformable convolution is used in a relatively na?ve way, without differing the characteristics of offset and features, and their behavior in gradient backpropagation. In this paper, a multiscale gradient-backpropagation optimization framework is proposed for the deformable convolution based compressed video quality enhancement. By analyzing the gradient backpropagation mechanism of deformable convolution, a multi-scale deformable convolution alignment structure is developed to facilitate the gradient backpropagation at all scales. Moreover, a progressive offset prediction module is developed, which decouples the offset prediction from the feature up-sampling, thus reducing the noise flow over scales. Experimental results show that the proposed method achieves the state-of-the-art performance, with 25.6% BD-rate saving compared to the HEVC reference software (HM).