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Main Authors: Gao, Wenshuo, Lan, Xicheng, Zhang, Luyao, Yang, Shuai
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.07484
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author Gao, Wenshuo
Lan, Xicheng
Zhang, Luyao
Yang, Shuai
author_facet Gao, Wenshuo
Lan, Xicheng
Zhang, Luyao
Yang, Shuai
contents Vector graphics, known for their scalability and user-friendliness, provide a unique approach to visual content compared to traditional pixel-based images. Animation of these graphics, driven by the motion of their elements, offers enhanced comprehensibility and controllability but often requires substantial manual effort. To automate this process, we propose a novel method that integrates implicit neural representations with text-to-video diffusion models for vector graphic animation. Our approach employs layered implicit neural representations to reconstruct vector graphics, preserving their inherent properties such as infinite resolution and precise color and shape constraints, which effectively bridges the large domain gap between vector graphics and diffusion models. The neural representations are then optimized using video score distillation sampling, which leverages motion priors from pretrained text-to-video diffusion models. Finally, the vector graphics are warped to match the representations resulting in smooth animation. Experimental results validate the effectiveness of our method in generating vivid and natural vector graphic animations, demonstrating significant improvement over existing techniques that suffer from limitations in flexibility and animation quality.
format Preprint
id arxiv_https___arxiv_org_abs_2509_07484
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle LINR Bridge: Vector Graphic Animation via Neural Implicits and Video Diffusion Priors
Gao, Wenshuo
Lan, Xicheng
Zhang, Luyao
Yang, Shuai
Computer Vision and Pattern Recognition
Vector graphics, known for their scalability and user-friendliness, provide a unique approach to visual content compared to traditional pixel-based images. Animation of these graphics, driven by the motion of their elements, offers enhanced comprehensibility and controllability but often requires substantial manual effort. To automate this process, we propose a novel method that integrates implicit neural representations with text-to-video diffusion models for vector graphic animation. Our approach employs layered implicit neural representations to reconstruct vector graphics, preserving their inherent properties such as infinite resolution and precise color and shape constraints, which effectively bridges the large domain gap between vector graphics and diffusion models. The neural representations are then optimized using video score distillation sampling, which leverages motion priors from pretrained text-to-video diffusion models. Finally, the vector graphics are warped to match the representations resulting in smooth animation. Experimental results validate the effectiveness of our method in generating vivid and natural vector graphic animations, demonstrating significant improvement over existing techniques that suffer from limitations in flexibility and animation quality.
title LINR Bridge: Vector Graphic Animation via Neural Implicits and Video Diffusion Priors
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2509.07484