Improved Approximations for Ultrametric Violation Distance
November 08, 2023 Β· Declared Dead Β· π ACM-SIAM Symposium on Discrete Algorithms
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Authors
Moses Charikar, Ruiquan Gao
arXiv ID
2311.04533
Category
cs.DS: Data Structures & Algorithms
Citations
6
Venue
ACM-SIAM Symposium on Discrete Algorithms
Last Checked
4 months ago
Abstract
We study the Ultrametric Violation Distance problem introduced by Cohen-Addad, Fan, Lee, and Mesmay [FOCS, 2022]. Given pairwise distances $x\in \mathbb{R}_{>0}^{\binom{[n]}{2}}$ as input, the goal is to modify the minimum number of distances so as to make it a valid ultrametric. In other words, this is the problem of fitting an ultrametric to given data, where the quality of the fit is measured by the $\ell_0$ norm of the error; variants of the problem for the $\ell_\infty$ and $\ell_1$ norms are well-studied in the literature. Our main result is a 5-approximation algorithm for Ultrametric Violation Distance, improving the previous best large constant factor ($\geq 1000$) approximation algorithm. We give an $O(\min\{L,\log n\})$-approximation for weighted Ultrametric Violation Distance where the weights satisfy triangle inequality and $L$ is the number of distinct values in the input. We also give a $16$-approximation for the problem on $k$-partite graphs, where the input is specified on pairs of vertices that form a complete $k$-partite graph. All our results use a unified algorithmic framework with small modifications for the three cases.
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