Dysen-VDM: Empowering Dynamics-aware Text-to-Video Diffusion with LLMs

Hao Fei, Shengqiong Wu, Wei Ji, Hanwang Zhang, Tat-Seng Chua; Proceedings of the IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR), 2024, pp. 7641-7653

Text-to-video (T2V) synthesis has gained increasing attention in the community in which the recently emerged diffusion models (DMs) have promisingly shown stronger performance than the past approaches. While existing state-of-the-art DMs are competent to achieve high-resolution video generation they may largely suffer from key limitations (e.g. action occurrence disorders crude video motions) with respect to the intricate temporal dynamics modeling one of the crux of video synthesis. In this work we investigate strengthening the awareness of video dynamics for DMs for high-quality T2V generation. Inspired by human intuition we design an innovative dynamic scene manager (dubbed as Dysen) module which includes (step-1) extracting from input text the key actions with proper time-order arrangement (step-2) transforming the action schedules into the dynamic scene graph (DSG) representations and (step-3) enriching the scenes in the DSG with sufficient and reasonable details. Taking advantage of the existing powerful LLMs (e.g. ChatGPT) via in-context learning Dysen realizes (nearly) human-level temporal dynamics understanding. Finally the resulting video DSG with rich action scene details is encoded as fine-grained spatio-temporal features integrated into the backbone T2V DM for video generating. Experiments on popular T2V datasets suggest that our Dysen-VDM consistently outperforms prior arts with significant margins especially in scenarios with complex actions.