Agnostic Sample Compression Schemes for Regression

October 03, 2018 ยท Declared Dead ยท ๐Ÿ› International Conference on Machine Learning

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Authors Idan Attias, Steve Hanneke, Aryeh Kontorovich, Menachem Sadigurschi arXiv ID 1810.01864 Category cs.LG: Machine Learning Cross-listed cs.IT, math.ST, stat.ML Citations 4 Venue International Conference on Machine Learning Last Checked 4 months ago
Abstract
We obtain the first positive results for bounded sample compression in the agnostic regression setting with the $\ell_p$ loss, where $p\in [1,\infty]$. We construct a generic approximate sample compression scheme for real-valued function classes exhibiting exponential size in the fat-shattering dimension but independent of the sample size. Notably, for linear regression, an approximate compression of size linear in the dimension is constructed. Moreover, for $\ell_1$ and $\ell_\infty$ losses, we can even exhibit an efficient exact sample compression scheme of size linear in the dimension. We further show that for every other $\ell_p$ loss, $p\in (1,\infty)$, there does not exist an exact agnostic compression scheme of bounded size. This refines and generalizes a negative result of David, Moran, and Yehudayoff for the $\ell_2$ loss. We close by posing general open questions: for agnostic regression with $\ell_1$ loss, does every function class admits an exact compression scheme of size equal to its pseudo-dimension? For the $\ell_2$ loss, does every function class admit an approximate compression scheme of polynomial size in the fat-shattering dimension? These questions generalize Warmuth's classic sample compression conjecture for realizable-case classification.
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