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Autori principali: Zheng, Jun, Wang, Jing, Zhao, Fuwei, Zhang, Xujie, Liang, Xiaodan
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.09822
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author Zheng, Jun
Wang, Jing
Zhao, Fuwei
Zhang, Xujie
Liang, Xiaodan
author_facet Zheng, Jun
Wang, Jing
Zhao, Fuwei
Zhang, Xujie
Liang, Xiaodan
contents Video try-on stands as a promising area for its tremendous real-world potential. Previous research on video try-on has primarily focused on transferring product clothing images to videos with simple human poses, while performing poorly with complex movements. To better preserve clothing details, those approaches are armed with an additional garment encoder, resulting in higher computational resource consumption. The primary challenges in this domain are twofold: (1) leveraging the garment encoder's capabilities in video try-on while lowering computational requirements; (2) ensuring temporal consistency in the synthesis of human body parts, especially during rapid movements. To tackle these issues, we propose a novel video try-on framework based on Diffusion Transformer(DiT), named Dynamic Try-On. To reduce computational overhead, we adopt a straightforward approach by utilizing the DiT backbone itself as the garment encoder and employing a dynamic feature fusion module to store and integrate garment features. To ensure temporal consistency of human body parts, we introduce a limb-aware dynamic attention module that enforces the DiT backbone to focus on the regions of human limbs during the denoising process. Extensive experiments demonstrate the superiority of Dynamic Try-On in generating stable and smooth try-on results, even for videos featuring complicated human postures.
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id arxiv_https___arxiv_org_abs_2412_09822
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publishDate 2024
record_format arxiv
spellingShingle Dynamic Try-On: Taming Video Virtual Try-on with Dynamic Attention Mechanism
Zheng, Jun
Wang, Jing
Zhao, Fuwei
Zhang, Xujie
Liang, Xiaodan
Computer Vision and Pattern Recognition
Video try-on stands as a promising area for its tremendous real-world potential. Previous research on video try-on has primarily focused on transferring product clothing images to videos with simple human poses, while performing poorly with complex movements. To better preserve clothing details, those approaches are armed with an additional garment encoder, resulting in higher computational resource consumption. The primary challenges in this domain are twofold: (1) leveraging the garment encoder's capabilities in video try-on while lowering computational requirements; (2) ensuring temporal consistency in the synthesis of human body parts, especially during rapid movements. To tackle these issues, we propose a novel video try-on framework based on Diffusion Transformer(DiT), named Dynamic Try-On. To reduce computational overhead, we adopt a straightforward approach by utilizing the DiT backbone itself as the garment encoder and employing a dynamic feature fusion module to store and integrate garment features. To ensure temporal consistency of human body parts, we introduce a limb-aware dynamic attention module that enforces the DiT backbone to focus on the regions of human limbs during the denoising process. Extensive experiments demonstrate the superiority of Dynamic Try-On in generating stable and smooth try-on results, even for videos featuring complicated human postures.
title Dynamic Try-On: Taming Video Virtual Try-on with Dynamic Attention Mechanism
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2412.09822