Mesh deformation-based single-view 3D reconstruction of thin eyeglasses frames with differentiable rendering

IF 2.5 4区 计算机科学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING Graphical Models Pub Date : 2024-08-09 DOI:10.1016/j.gmod.2024.101225
Fan Zhang , Ziyue Ji , Weiguang Kang , Weiqing Li , Zhiyong Su
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Abstract

With the support of Virtual Reality (VR) and Augmented Reality (AR) technologies, the 3D virtual eyeglasses try-on application is well on its way to becoming a new trending solution that offers a “try on” option to select the perfect pair of eyeglasses at the comfort of your own home. Reconstructing eyeglasses frames from a single image with traditional depth and image-based methods is extremely difficult due to their unique characteristics such as lack of sufficient texture features, thin elements, and severe self-occlusions. In this paper, we propose the first mesh deformation-based reconstruction framework for recovering high-precision 3D full-frame eyeglasses models from a single RGB image, leveraging prior and domain-specific knowledge. Specifically, based on the construction of a synthetic eyeglasses frame dataset, we first define a class-specific eyeglasses frame template with pre-defined keypoints. Then, given an input eyeglasses frame image with thin structure and few texture features, we design a keypoint detector and refiner to detect predefined keypoints in a coarse-to-fine manner to estimate the camera pose accurately. After that, using differentiable rendering, we propose a novel optimization approach for producing correct geometry by progressively performing free-form deformation (FFD) on the template mesh. We define a series of loss functions to enforce consistency between the rendered result and the corresponding RGB input, utilizing constraints from inherent structure, silhouettes, keypoints, per-pixel shading information, and so on. Experimental results on both the synthetic dataset and real images demonstrate the effectiveness of the proposed algorithm.

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基于网格变形的单视角薄眼镜架三维重建与可变渲染
在虚拟现实(VR)和增强现实(AR)技术的支持下,三维虚拟眼镜试戴应用程序正逐渐成为一种新的潮流解决方案,为用户提供 "试戴 "选项,让用户在家中就能挑选一副完美的眼镜。由于眼镜框的独特性,如缺乏足够的纹理特征、薄元素和严重的自遮挡,用传统的基于深度和图像的方法从单幅图像中重建眼镜框极其困难。在本文中,我们首次提出了基于网格变形的重建框架,利用先验知识和特定领域知识,从单张 RGB 图像中恢复高精度三维全框眼镜模型。具体来说,在构建合成眼镜框数据集的基础上,我们首先定义了带有预定义关键点的特定类别眼镜框模板。然后,给定一张结构单薄、纹理特征较少的眼镜框输入图像,我们设计了一个关键点检测器和细化器,以从粗到细的方式检测预定义的关键点,从而准确地估计相机姿态。之后,我们利用可微分渲染技术,提出了一种新颖的优化方法,通过在模板网格上逐步执行自由形态变形 (FFD) 来生成正确的几何图形。我们定义了一系列损失函数,利用来自固有结构、轮廓、关键点、每像素阴影信息等的约束条件,加强渲染结果与相应 RGB 输入之间的一致性。在合成数据集和真实图像上的实验结果证明了所提算法的有效性。
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来源期刊
Graphical Models
Graphical Models 工程技术-计算机:软件工程
CiteScore
3.60
自引率
5.90%
发文量
15
审稿时长
47 days
期刊介绍: Graphical Models is recognized internationally as a highly rated, top tier journal and is focused on the creation, geometric processing, animation, and visualization of graphical models and on their applications in engineering, science, culture, and entertainment. GMOD provides its readers with thoroughly reviewed and carefully selected papers that disseminate exciting innovations, that teach rigorous theoretical foundations, that propose robust and efficient solutions, or that describe ambitious systems or applications in a variety of topics. We invite papers in five categories: research (contributions of novel theoretical or practical approaches or solutions), survey (opinionated views of the state-of-the-art and challenges in a specific topic), system (the architecture and implementation details of an innovative architecture for a complete system that supports model/animation design, acquisition, analysis, visualization?), application (description of a novel application of know techniques and evaluation of its impact), or lecture (an elegant and inspiring perspective on previously published results that clarifies them and teaches them in a new way). GMOD offers its authors an accelerated review, feedback from experts in the field, immediate online publication of accepted papers, no restriction on color and length (when justified by the content) in the online version, and a broad promotion of published papers. A prestigious group of editors selected from among the premier international researchers in their fields oversees the review process.
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