Litcius/Paper detail

Event-based Motion Deblurring with Modality-Aware Decomposition and Recomposition

Wen Yang, Jinjian Wu, Leida Li, Weisheng Dong, Guangming Shi

202310 citationsDOI

Abstract

Event camera responds to the brightness changes at each pixel independently with microsecond accuracy. Event cameras offer attractive property that can record well high-speed scene but ignore static and non-moving areas, while conventional frame cameras are able to acquire the whole intensity information of the scene but suffer from motion blur. Therefore, it would be desirable to combine the best of two cameras for reconstructing high quality intensity frame with no motion blur. The human visual system presents a two-pathway procedure for non-action-based representation and objects motion perception, which corresponds well to the hybrid frame and event. In this paper, inspired by the two-pathway visual system, a novel dual-stream based framework is proposed for motion deblurring (DS-Deblur), which flexibly utilizes the respective advantages from frame and event. A complementary-unique information splitting based feature fusion module is firstly proposed to adaptively aggregate the frame and event progressively at multiple levels, which is well-grounded on the hierarchical process in twopathway visual system. Then, a recurrent spatio-temporal feature transformation module is designed to exploit relevant information between adjacent frames, in which features of both current and previous frames are transformed in a global-local manner. Extensive experiments on both synthetic and real motion blur datasets demonstrate our method achieves state-of-the-art performance. Project website: https://github.com/wyang-vis/Motion-Deblurringwith-Hybrid-Frames-and-Events.

Topics & Concepts

DeblurringComputer scienceComputer visionArtificial intelligenceMotion blurFrame (networking)Inter frameFeature (linguistics)Event (particle physics)Motion (physics)Reference frameImage restorationImage (mathematics)Image processingLinguisticsPhysicsPhilosophyTelecommunicationsQuantum mechanicsAdvanced Image Processing TechniquesImage and Signal Denoising MethodsRandom lasers and scattering media