Overparameterized Linear Regression under Adversarial Attacks
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As machine learning models start to be used in critical applications, their vulnerabilities and brittleness become a pressing concern. Adversarial attacks are a popular framework for studying these vulnerabilities. In this work, we study the error of linear regression in the face of adversarial attacks. We provide bounds of the error in terms of the traditional risk and the parameter norm and show how these bounds can be leveraged and make it possible to use analysis from non-adversarial setups to study the adversarial risk. The usefulness of these results is illustrated by shedding light on whether or not overparameterized linear models can be adversarially robust. We show that adding features to linear models might be either a source of additional robustness or brittleness. We show that these differences appear due to scaling and how the ℓ_1 and ℓ_2 norms of random projections concentrate. We also show how the reformulation we propose allows for solving adversarial training as a convex optimization problem. This is then used as a tool to study how adversarial training and other regularization methods might affect the robustness of the estimated models.
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