Sparse Regression via Range Counting
August 01, 2019 Β· Declared Dead Β· π Scandinavian Workshop on Algorithm Theory
"No code URL or promise found in abstract"
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Authors
Jean Cardinal, AurΓ©lien Ooms
arXiv ID
1908.00351
Category
cs.DS: Data Structures & Algorithms
Cross-listed
cs.CG
Citations
2
Venue
Scandinavian Workshop on Algorithm Theory
Last Checked
4 months ago
Abstract
The sparse regression problem, also known as best subset selection problem, can be cast as follows: Given a set $S$ of $n$ points in $\mathbb{R}^d$, a point $y\in \mathbb{R}^d$, and an integer $2 \leq k \leq d$, find an affine combination of at most $k$ points of $S$ that is nearest to $y$. We describe a $O(n^{k-1} \log^{d-k+2} n)$-time randomized $(1+\varepsilon)$-approximation algorithm for this problem with \(d\) and \(\varepsilon\) constant. This is the first algorithm for this problem running in time $o(n^k)$. Its running time is similar to the query time of a data structure recently proposed by Har-Peled, Indyk, and Mahabadi (ICALP'18), while not requiring any preprocessing. Up to polylogarithmic factors, it matches a conditional lower bound relying on a conjecture about affine degeneracy testing. In the special case where $k = d = O(1)$, we also provide a simple $O_Ξ΄(n^{d-1+Ξ΄})$-time deterministic exact algorithm, for any \(Ξ΄> 0\). Finally, we show how to adapt the approximation algorithm for the sparse linear regression and sparse convex regression problems with the same running time, up to polylogarithmic factors.
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