Abstract
This paper presents a novel task together with a new benchmark for detecting generic, taxonomy-free event boundaries that segment a whole video into chunks. Conventional work in temporal video segmentation and action detection focuses on localizing pre-defined action categories and thus does not scale to generic videos. Cognitive Science has known since last century that humans consistently segment videos into meaningful temporal chunks. This segmentation happens naturally, with no pre-defined event categories and without being explicitly asked to do so. Here, we repeat these cognitive experiments on mainstream CV datasets; with our novel annotation guideline which addresses the complexities of taxonomy-free event boundary annotation, we introduce the task of Generic Event Boundary Detection (GEBD) and the new benchmark Kinetics-GEBD. Through experiment and human study we demonstrate the value of the annotations. We view this as an important stepping stone towards understanding the video as a whole, and believe it has been previously neglected due to a lack of proper task definition and annotations. Further, inspired by the cognitive finding that humans mark boundaries at points where they are unable to predict the future accurately, we explore un-supervised approaches based on temporal predictability. We identify and extensively explore important design factors for GEBD models on the TAPOS dataset and our Kinetics-GEBD while achieving competitive performance and suggesting future work. We will release our annotations and code at CVPR'21 LOVEU Challenge: this https URL
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URL
https://arxiv.org/abs/2101.10511
