Efficient Algorithms for Outlier-Robust Regression

Adam Klivans, Pravesh K. Kothari, Raghu Meka

Research output: Contribution to journalConference articlepeer-review

80 Scopus citations

Abstract

We give the first polynomial-time algorithm for performing linear or polynomial regression resilient to adversarial corruptions in both examples and labels. Given a sufficiently large (polynomial-size) training set drawn i.i.d. from distribution D and subsequently corrupted on some fraction of points, our algorithm outputs a linear function whose squared error is close to the squared error of the best-fitting linear function with respect to D, assuming that the marginal distribution of D over the input space is certifiably hypercontractive. This natural property is satisfied by many well-studied distributions such as Gaussian, strongly log-concave distributions and, uniform distribution on the hypercube among others. We also give a simple statistical lower bound showing that some distributional assumption is necessary to succeed in this setting. These results are the first of their kind and were not known to be even information-theoretically possible prior to our work. Our approach is based on the sum-of-squares (SoS) method and is inspired by the recent applications of the method for parameter recovery problems in unsupervised learning. Our algorithm can be seen as a natural convex relaxation of the following conceptually simple non-convex optimization problem: find a linear function and a large subset of the input corrupted sample such that the least squares loss of the function over the subset is minimized over all possible large subsets.

Original languageEnglish (US)
Pages (from-to)1420-1430
Number of pages11
JournalProceedings of Machine Learning Research
Volume75
StatePublished - 2018
Event31st Annual Conference on Learning Theory, COLT 2018 - Stockholm, Sweden
Duration: Jul 6 2018Jul 9 2018

All Science Journal Classification (ASJC) codes

  • Artificial Intelligence
  • Software
  • Control and Systems Engineering
  • Statistics and Probability

Keywords

  • regression
  • robust learning
  • sum-of-squares

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