Litcius/Paper detail

Learning a Deep Dual Attention Network for Video Super-Resolution

Feng Li, Huihui Bai, Yao Zhao

2020IEEE Transactions on Image Processing62 citationsDOI

Abstract

Recently, deep learning based video super-resolution (SR) methods combine the convolutional neural networks (CNN) with motion compensation to estimate a high-resolution (HR) video from its low-resolution (LR) counterpart. However, most previous methods conduct downscaling motion estimation to handle large motions, which can lead to detrimental effects on the accuracy of motion estimation due to the reduction of spatial resolution. Besides, these methods usually treat different types of intermediate features equally, which lack flexibility to emphasize meaningful information for revealing the high-frequency details. In this paper, to solve above issues, we propose a deep dual attention network (DDAN), including a motion compensation network (MCNet) and a SR reconstruction network (ReconNet), to fully exploit the spatio-temporal informative features for accurate video SR. The MCNet progressively learns the optical flow representations to synthesize the motion information across adjacent frames in a pyramid fashion. To decrease the mis-registration errors caused by the optical flow based motion compensation, we extract the detail components of original LR neighboring frames as complementary information for accurate feature extraction. In the ReconNet, we implement dual attention mechanisms on a residual unit and form a residual attention unit to focus on the intermediate informative features for high-frequency details recovery. Extensive experimental results on numerous datasets demonstrate the proposed method can effectively achieve superior performance in terms of quantitative and qualitative assessments compared with state-of-the-art methods.

Topics & Concepts

Computer scienceArtificial intelligenceMotion compensationOptical flowComputer visionResidualConvolutional neural networkMotion estimationDeep learningFeature extractionFocus (optics)Pyramid (geometry)Flexibility (engineering)Pattern recognition (psychology)Feature (linguistics)Quarter-pixel motionCompensation (psychology)Image resolutionImage (mathematics)AlgorithmStatisticsOpticsMathematicsLinguisticsPhysicsPhilosophyPsychoanalysisPsychologyAdvanced Image Processing TechniquesAdvanced Vision and ImagingImage Processing Techniques and Applications