Time-adaptive Video Frame Interpolation based on Residual Diffusion
This work addresses frame interpolation challenges in traditional animation, offering improved performance for animators, though it is incremental as it adapts existing diffusion techniques to a specific domain.
The authors tackled video frame interpolation for hand-drawn animation by proposing a diffusion-based method that adapts to time variations and uses few diffusion steps, outperforming state-of-the-art models on animation videos.
In this work, we propose a new diffusion-based method for video frame interpolation (VFI), in the context of traditional hand-made animation. We introduce three main contributions: The first is that we explicitly handle the interpolation time in our model, which we also re-estimate during the training process, to cope with the particularly large variations observed in the animation domain, compared to natural videos; The second is that we adapt and generalize a diffusion scheme called ResShift recently proposed in the super-resolution community to VFI, which allows us to perform a very low number of diffusion steps (in the order of 10) to produce our estimates; The third is that we leverage the stochastic nature of the diffusion process to provide a pixel-wise estimate of the uncertainty on the interpolated frame, which could be useful to anticipate where the model may be wrong. We provide extensive comparisons with respect to state-of-the-art models and show that our model outperforms these models on animation videos. Our code is available at https://github.com/VicFonch/Multi-Input-Resshift-Diffusion-VFI.