Three-Dimensional Bilateral Symmetry Plane Estimation in the Phase Domain

R. Kakarala, P. Kaliamoorthi, Vittal Premachandran
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引用次数: 18

Abstract

We show that bilateral symmetry plane estimation for three-dimensional (3-D) shapes may be carried out accurately, and efficiently, in the spherical harmonic domain. Our methods are valuable for applications where spherical harmonic expansion is already employed, such as 3-D shape registration, morphometry, and retrieval. We show that the presence of bilateral symmetry in the 3-D shape is equivalent to a linear phase structure in the corresponding spherical harmonic coefficients, and provide algorithms for estimating the orientation of the symmetry plane. The benefit of using spherical harmonic phase is that symmetry estimation reduces to matching a compact set of descriptors, without the need to solve a correspondence problem. Our methods work on point clouds as well as large-scale mesh models of 3-D shapes.
相位域三维双边对称平面估计
我们证明了三维(3-D)形状的双边对称平面估计可以在球面调和域中精确有效地进行。我们的方法对于已经采用球面谐波展开的应用很有价值,例如三维形状配准,形态测量和检索。我们证明了三维形状中双边对称的存在等效于相应球面谐波系数中的线性相位结构,并提供了估计对称平面方向的算法。使用球谐相位的好处是对称估计简化为匹配一组紧凑的描述符,而不需要解决对应问题。我们的方法既适用于点云,也适用于三维形状的大规模网格模型。
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