FLOW-GUIDED TRANSFORMER FOR VIDEO COLORIZATION

Video colorization aims to add color to black-and-white films. However, propagating color information to the whole video clip accurately is a challenging task. In this paper, we propose Flow-Guided Transformer for Video Colorization (FGTVC), consisting of a Global Motion Aggregation (GMA) module, Residual modules, Flow-Guided Attention blocks (FGAB) based on encoder and decoder, to exploit the information from the neighbor patch with high similarity for each video patch colorization. Specifically, we employ Transformer to capture the long-distance dependencies between frames and learn non-local self-similarity in the frame. To overcome the shortcomings of previous optical flow-based methods, FGAB enjoys the guidance of optical flow to sample elements from spatio-temporal adjacent frames when calculating self-attention. Experiments show that the proposed FGTVC has an outstanding performance than the state-of-the-art methods. In addition, comprehensive findings demonstrate the superiority of our framework in real-world video colorization tasks.