Curvature of an Arbitrary Surface for Discrete Gravity and for $d=2$ Pure Simplicial Complexes

Ali H. Chamseddine, Ola Malaeb, Sara Najem
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Abstract

We propose a computation of curvature of arbitrary two-dimensional surfaces of three-dimensional objects, which is a contribution to discrete gravity with potential applications in network geometry. We begin by linking each point of the surface in question to its four closest neighbors, forming quads. We then focus on the simplices of $d=2$, or triangles embedded in these quads, which make up a pure simplicial complex with $d=2$. This allows us to numerically compute the local metric along with zweibeins, which subsequently leads to a derivation of discrete curvature defined at every triangle or face. We provide an efficient algorithm with $\mathcal{O}(N \log{N})$ complexity that first orients two-dimensional surfaces, solves the nonlinear system of equations of the spin-connections resulting from the torsion condition, and returns the value of curvature at each face.
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离散引力和 d=2$ 纯简复数的任意曲面曲率
我们提出了一种计算三维物体任意二维表面曲率的方法,这是对离散重力的贡献,在网络几何中具有潜在的应用价值。我们首先将有关曲面的每个点与其四个近邻点连接起来,形成四边形。然后,我们将注意力集中在 $d=2$ 的简面,或嵌入这些四边形的三角形,它们构成了一个 $d=2$ 的纯简面复数。这样,我们就可以数值计算局部度量和zweibeins,进而推导出定义在每个三角形或面的离散曲率。我们提供了一种复杂度为 $\mathcal{O}(N \log{N})$ 的高效算法,它首先给出二维曲面,求解扭转条件产生的自旋连接的非线性方程组,并返回每个面的曲率值。
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