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TE-TAD: Towards Full End-to-End Temporal Action Detection via Time-Aligned Coordinate Expression

Ho-Joong Kim, Jung-Ho Hong, Heejo Kong, Seong–Whan Lee

202418 citationsDOI

Abstract

In this paper, we investigate that the normalized co-ordinate expression is a key factor as reliance on hand-crafted components in query-based detectors for tempo-ral action detection (TAD). Despite significant advancements towards an end-to-end framework in object detection, query-based detectors have been limited in achieving full end-to-end modeling in TAD. To address this is-sue, we propose TE-TAD, a full end-to-end temporal action detection transformer that integrates time-aligned co-ordinate expression. We reformulate coordinate expression utilizing actual time line values, ensuring length-invariant representations from the extremely diverse video duration environment. Furthermore, our proposed adaptive query selection dynamically adjusts the number of queries based on video length, providing a suitable solution for varying video durations compared to a fixed query set. Our approach not only simplifies the TAD process by eliminating the needfor hand-crafted components but also significantly improves the performance of query-based detectors. Our TE-TAD outperforms the previous query-based detectors and achieves competitive performance compared to state-of-the-art methods on popular benchmark datasets. Code is available at: https://github.com/Dotori-HJ/TE-TAD

Topics & Concepts

End-to-end principleAction (physics)Computer scienceArtificial intelligencePhysicsQuantum mechanicsHuman Pose and Action RecognitionAnomaly Detection Techniques and ApplicationsVideo Analysis and Summarization