Actions as Moving Points
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The existing action tubelet detectors mainly depend on heuristic anchor box design and placement, which might be computationally expensive and sub-optimal for precise localization of action instances. In this paper, we present a new action tubelet detection framework, termed as MovingCenter Detector (MOC-detector), by treating an action instance as a trajectory of moving points. Based on the analysis that movement information could simplify and assist the action tubelet detection, our MOC-detector is decomposed into three crucial head branches: (1) Center Branch for instance center detection and action recognition, (2) Movement Branch for movement estimation at adjacent frames to form moving point trajectories, (3) Box Branch for spatial extent detection by directly regressing bounding box size at the estimated center point of each frame. These three branches work together to generate the tubelet detection results, that could be further linked to yield video level tubes with a common matching strategy. Our MOC-detector outperforms the existing state-of-the-art methods by a large margin under the same setting for frame-mAP and video-mAP on the JHMDB and UCF101-24 datasets. The performance gap is more evident for higher video IoU, demonstrating that our MOC-detector is particularly useful for more precise action detection.
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