Signal and Image processing

Video joint denoising and demosaicing with recurrent CNNs

Published on - Winter Conference on Applications of Computer Vision (WACV)

Authors: Valéry Dewil, Adrien Courtois, Mariano Rodríguez, Thibaud Ehret, Nicola Brandonisio, Denis Bujoreanu, Gabriele Facciolo, Pablo Arias

Denoising and demosaicing are two critical components of the image/video processing pipeline. While historically these two tasks have mainly been considered separately, current neural network approaches allow to obtain state of-the-art results by treating them jointly. However, most existing research focuses in single image or burst joint denoising and demosaicing (JDD). Although related to burst JDD, video JDD deserves its own treatment. In this work we present an empirical exploration of different design aspects of video joint denoising and demosaicing using neural networks. We compare recurrent and non-recurrent approaches and explore aspects such as type of propagated information in recurrent networks, motion compensation, video stabilization, and network architecture. We found that recurrent networks with motion compensation achieve best results. Our work should serve as a strong baseline for future research in video JDD.