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Fast Learning of Temporal Action Proposal via Dense Boundary Generator

Chuming Lin, Jian Li, Yabiao Wang, Ying Tai, Donghao Luo, Zhipeng Cui, Chengjie Wang, Jilin Li, Feiyue Huang, Rongrong Ji

2020Proceedings of the AAAI Conference on Artificial Intelligence200 citationsDOIOpen Access PDF

Abstract

Generating temporal action proposals remains a very challenging problem, where the main issue lies in predicting precise temporal proposal boundaries and reliable action confidence in long and untrimmed real-world videos. In this paper, we propose an efficient and unified framework to generate temporal action proposals named Dense Boundary Generator (DBG), which draws inspiration from boundary-sensitive methods and implements boundary classification and action completeness regression for densely distributed proposals. In particular, the DBG consists of two modules: Temporal boundary classification (TBC) and Action-aware completeness regression (ACR). The TBC aims to provide two temporal boundary confidence maps by low-level two-stream features, while the ACR is designed to generate an action completeness score map by high-level action-aware features. Moreover, we introduce a dual stream BaseNet (DSB) to encode RGB and optical flow information, which helps to capture discriminative boundary and actionness features. Extensive experiments on popular benchmarks ActivityNet-1.3 and THUMOS14 demonstrate the superiority of DBG over the state-of-the-art proposal generator (e.g., MGG and BMN).

Topics & Concepts

Boundary (topology)Discriminative modelComputer scienceCompleteness (order theory)Generator (circuit theory)Artificial intelligenceAction (physics)RegressionENCODEMachine learningMathematicsPhysicsStatisticsPower (physics)Quantum mechanicsChemistryMathematical analysisBiochemistryGeneHuman Pose and Action RecognitionHuman Motion and AnimationAdvanced Vision and Imaging
Fast Learning of Temporal Action Proposal via Dense Boundary Generator | Litcius