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| Format: | Preprint |
| Published: |
2023
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2304.07622 |
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Table of Contents:
- A randomized scheme that succeeds with probability $1-δ$ (for any $δ>0$) has been devised to construct (1) an equidistributed $ε$-cover of a compact Riemannian symmetric space $\mathbb M$ of dimension $d_{\mathbb M}$ and antipodal dimension $\bar{d}_{\mathbb M}$, and (2) an approximate $(λ_r,2)$-design, using $n(ε,δ)$-many Haar-random isometries of $\mathbb M$, where \begin{equation}n(ε,δ):=O_{\mathbb M}\left(d_{\mathbb M}\ln \left(\frac 1ε\right)+\log\left(\frac 1δ\right)\right)\,,\end{equation} and $λ_r$ is the $r$-th smallest eigenvalue of the Laplace-Beltrami operator on $\mathbb M$. The $ε$-cover so-produced can be used to compute the integral of 1-Lipschitz functions within additive $\tilde O(ε)$-error, as well as in comparing persistence homology computed from data cloud to that of a hypothetical data cloud sampled from the uniform measure.