基于三维人耳形变模型的三维人耳重建

Efficient 3D ear reconstruction by employing the 3D ear morphable model

  • 摘要: 基于对已有三维人耳重建工作和形变模型理论的研究,充分结合人耳自身的结构特征,提出了一种新的三维人耳重建方法——基于人耳形变模型的方法.首先使用中垂线法完成了外耳轮廓特征点的定位;提出分级三角网格法,解决了样本耳基于生理特征的稠密对应问题;再借鉴广义普鲁克分析的思想,在三维空间内实现了精确全自动的三维人耳形状对齐;最后训练得到了三维人耳形变模型.所提方法只需一幅二维图像,即可获得足够稠密的三维人耳模型.在UND三维人耳数据库和USTB三维重建人耳数据库上的大量实验证明所提方法的有效性和优越性.

     

    Abstract: Based on studies on the existing three-dimensional (3D) ear reconstruction method and morphable model theory, considering the unique structure of human ears, a novel 3D ear reconstruction method was proposed, which is based on the 3D ear morphable model. First, ear feature points on the contour were located by the perpendicular bisector method. Then, the dense match of 3D ear samples based on physiological characteristics was realized by a hierarchical triangle mesh method. The generalized Procrustes analysis was performed, and the ear shape alignment was achieved accurately and automatically in the 3D space. Finally, the 3D ear morphable model was trained by using 3D ear data from the University of Notre Dame (UND) 3D ear dataset. This method can reconstruct the corresponding dense 3D model using only one 2D ear image. Extensive experimental results on UND collection J2 dataset and USTB ear image database for reconstruction show that the Drooosed method is effective and advantageous.

     

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