Part of Advances in Neural Information Processing Systems 23 (NIPS 2010)

*Ali Jalali, Sujay Sanghavi, Chao Ruan, Pradeep Ravikumar*

We consider the multiple linear regression problem, in a setting where some of the set of relevant features could be shared across the tasks. A lot of recent research has studied the use of $\ell_1/\ell_q$ norm block-regularizations with $q > 1$ for such (possibly) block-structured problems, establishing strong guarantees on recovery even under high-dimensional scaling where the number of features scale with the number of observations. However, these papers also caution that the performance of such block-regularized methods are very dependent on the {\em extent} to which the features are shared across tasks. Indeed they show~\citep{NWJoint} that if the extent of overlap is less than a threshold, or even if parameter {\em values} in the shared features are highly uneven, then block $\ell_1/\ell_q$ regularization could actually perform {\em worse} than simple separate elementwise $\ell_1$ regularization. We are far away from a realistic multi-task setting: not only do the set of relevant features have to be exactly the same across tasks, but their values have to as well. Here, we ask the question: can we leverage support and parameter overlap when it exists, but not pay a penalty when it does not? Indeed, this falls under a more general question of whether we can model such \emph{dirty data} which may not fall into a single neat structural bracket (all block-sparse, or all low-rank and so on). Here, we take a first step, focusing on developing a dirty model for the multiple regression problem. Our method uses a very simple idea: we decompose the parameters into two components and {\em regularize these differently.} We show both theoretically and empirically, our method strictly and noticeably outperforms both $\ell_1$ and $\ell_1/\ell_q$ methods, over the entire range of possible overlaps. We also provide theoretical guarantees that the method performs well under high-dimensional scaling.

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