Universal Representation Learning for Video Editing Components

Learning visual representations of editing components is crucial for video creation tasks, supported by a novel dataset and method.

This paper introduces a large-scale dataset, Edit3K, covering 3,094 editing components in videos. It proposes a novel method that learns to focus on the appearance of editing components regardless of raw materials. The method achieves favorable results on editing component retrieval/recognition compared to alternative solutions. The learned representations benefit transition recommendation tasks with state-of-the-art results on the AutoTransition dataset. Introduction Predominant video creation pipeline focuses on compositional video editing. Existing visual representation methods struggle with distinguishing editing components from raw materials. Edit3K Dataset First large-scale dataset for video editing components. Contains 618,800 videos covering 3,094 atomic editing actions of 6 major categories. Method Proposes a novel method focusing on the appearance of editing components. Achieves favorable results on various tasks and outperforms alternative solutions. Experiment Conducts experiments on editing component retrieval and transition recommendation tasks. Demonstrates superior performance compared to existing methods. Conclusion Highlights the importance of learning universal representations for diverse types of editing components in videos.

Each video in our dataset is rendered by various image/video materials with a single editing component. Our method achieves state-of-the-art results on both editing component retrieval and transition recommendation tasks.

"Our method achieves favorable results on editing component retrieval/recognition compared to alternative solutions." "A user study shows that our representations cluster visually similar editing components better than other alternatives."