基于SPD矩阵空间和Cholesky空间黎曼几何的三维骨架交互识别神经网络

X. Nguyen
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引用次数: 19

摘要

在本文中,我们提出了一种新的方法来表示和分类从三维骨骼序列的两人互动。我们的方法的关键思想是使用高斯分布来捕获在算子和对称正定(SPD)矩阵空间上的统计量。主要的挑战是如何将这些分布参数化。为此,我们基于李群和黎曼对称空间的理论,发展了在矩阵群中嵌入高斯分布的方法。我们的方法依赖于底层流形的黎曼几何,并且具有从三维关节位置编码高阶统计量的优点。我们表明,所提出的方法在三维人类活动理解的三个基准上实现了两人交互识别的竞争性结果。
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GeomNet: A Neural Network Based on Riemannian Geometries of SPD Matrix Space and Cholesky Space for 3D Skeleton-Based Interaction Recognition
In this paper, we propose a novel method for representation and classification of two-person interactions from 3D skeleton sequences. The key idea of our approach is to use Gaussian distributions to capture statistics on ℝn and those on the space of symmetric positive definite (SPD) matrices. The main challenge is how to parametrize those distributions. Towards this end, we develop methods for embedding Gaussian distributions in matrix groups based on the theory of Lie groups and Riemannian symmetric spaces. Our method relies on the Riemannian geometry of the underlying manifolds and has the advantage of encoding high-order statistics from 3D joint positions. We show that the proposed method achieves competitive results in two-person interaction recognition on three benchmarks for 3D human activity understanding.
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