Errui Ding scite author profile

Temporal action proposal generation is an challenging and promising task which aims to locate temporal regions in real-world videos where action or event may occur. Current bottom-up proposal generation methods can generate proposals with precise boundary, but cannot efficiently generate adequately reliable confidence scores for retrieving proposals. To address these difficulties, we introduce the Boundary-Matching (BM) mechanism to evaluate confidence scores of densely distributed proposals, which denote a proposal as a matching pair of starting and ending boundaries and combine all densely distributed BM pairs into the BM confidence map. Based on BM mechanism, we propose an effective, efficient and end-to-end proposal generation method, named Boundary-Matching Network (BMN), which generates proposals with precise temporal boundaries as well as reliable confidence scores simultaneously. The two-branches of BMN are jointly trained in an unified framework. We conduct experiments on two challenging datasets: THUMOS-14 and ActivityNet-1.3, where BMN shows significant performance improvement with remarkable efficiency and generalizability. Further, combining with existing action classifier, BMN can achieve stateof-the-art temporal action detection performance.

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STGAN: A Unified Selective Transfer Network for Arbitrary Image Attribute Editing

Liu

et al. 2019

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Figure 1: High resolution (384 × 384) results of STGAN for facial attribute editing, and more results are given in the suppl. AbstractArbitrary attribute editing generally can be tackled by incorporating encoder-decoder and generative adversarial networks. However, the bottleneck layer in encoderdecoder usually gives rise to blurry and low quality editing result. And adding skip connections improves image quality at the cost of weakened attribute manipulation ability. Moreover, existing methods exploit target attribute vector to guide the flexible translation to desired target domain. In this work, we suggest to address these issues from selective transfer perspective. Considering that specific editing task is certainly only related to the changed attributes instead of all target attributes, our model selectively takes the difference between target and source attribute vectors as input. Furthermore, selective transfer units are incorporated with encoder-decoder to adaptively select and modify encoder feature for enhanced attribute editing. Experiments show that our method (i.e., STGAN) simultaneously improves attribute manipulation accuracy as well as perception quality, and performs favorably against state-of-the-arts in arbitrary facial attribute editing and season translation.

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Attentive Feedback Network for Boundary-Aware Salient Object Detection

2019

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Towards Accurate Scene Text Recognition With Semantic Reasoning Networks

Zhang

et al. 2020

294

226

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Errui Ding

BMN: Boundary-Matching Network for Temporal Action Proposal Generation

STGAN: A Unified Selective Transfer Network for Arbitrary Image Attribute Editing

Attentive Feedback Network for Boundary-Aware Salient Object Detection

Towards Accurate Scene Text Recognition With Semantic Reasoning Networks

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