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Auteurs principaux: Lin, Xin, Shi, Chong, Zhan, Yibing, Yang, Zuopeng, Wu, Yaqi, Tao, Dacheng
Format: Preprint
Publié: 2024
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Accès en ligne:https://arxiv.org/abs/2401.12479
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author Lin, Xin
Shi, Chong
Zhan, Yibing
Yang, Zuopeng
Wu, Yaqi
Tao, Dacheng
author_facet Lin, Xin
Shi, Chong
Zhan, Yibing
Yang, Zuopeng
Wu, Yaqi
Tao, Dacheng
contents Dynamic scene graph generation (SGG) focuses on detecting objects in a video and determining their pairwise relationships. Existing dynamic SGG methods usually suffer from several issues, including 1) Contextual noise, as some frames might contain occluded and blurred objects. 2) Label bias, primarily due to the high imbalance between a few positive relationship samples and numerous negative ones. Additionally, the distribution of relationships exhibits a long-tailed pattern. To address the above problems, in this paper, we introduce a network named TD$^2$-Net that aims at denoising and debiasing for dynamic SGG. Specifically, we first propose a denoising spatio-temporal transformer module that enhances object representation with robust contextual information. This is achieved by designing a differentiable Top-K object selector that utilizes the gumbel-softmax sampling strategy to select the relevant neighborhood for each object. Second, we introduce an asymmetrical reweighting loss to relieve the issue of label bias. This loss function integrates asymmetry focusing factors and the volume of samples to adjust the weights assigned to individual samples. Systematic experimental results demonstrate the superiority of our proposed TD$^2$-Net over existing state-of-the-art approaches on Action Genome databases. In more detail, TD$^2$-Net outperforms the second-best competitors by 12.7 \% on mean-Recall@10 for predicate classification.
format Preprint
id arxiv_https___arxiv_org_abs_2401_12479
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle TD^2-Net: Toward Denoising and Debiasing for Dynamic Scene Graph Generation
Lin, Xin
Shi, Chong
Zhan, Yibing
Yang, Zuopeng
Wu, Yaqi
Tao, Dacheng
Computer Vision and Pattern Recognition
Dynamic scene graph generation (SGG) focuses on detecting objects in a video and determining their pairwise relationships. Existing dynamic SGG methods usually suffer from several issues, including 1) Contextual noise, as some frames might contain occluded and blurred objects. 2) Label bias, primarily due to the high imbalance between a few positive relationship samples and numerous negative ones. Additionally, the distribution of relationships exhibits a long-tailed pattern. To address the above problems, in this paper, we introduce a network named TD$^2$-Net that aims at denoising and debiasing for dynamic SGG. Specifically, we first propose a denoising spatio-temporal transformer module that enhances object representation with robust contextual information. This is achieved by designing a differentiable Top-K object selector that utilizes the gumbel-softmax sampling strategy to select the relevant neighborhood for each object. Second, we introduce an asymmetrical reweighting loss to relieve the issue of label bias. This loss function integrates asymmetry focusing factors and the volume of samples to adjust the weights assigned to individual samples. Systematic experimental results demonstrate the superiority of our proposed TD$^2$-Net over existing state-of-the-art approaches on Action Genome databases. In more detail, TD$^2$-Net outperforms the second-best competitors by 12.7 \% on mean-Recall@10 for predicate classification.
title TD^2-Net: Toward Denoising and Debiasing for Dynamic Scene Graph Generation
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2401.12479