Adaptive Principal Component Regression with Applications to Panel Data
Abstract
Principal component regression (PCR) is a popular technique for fixed-design error-in-variables regression, a generalization of the linear regression setting in which the observed covariates are corrupted with random noise. We provide the first time-uniform finite sample guarantees for online (regularized) PCR whenever data is collected adaptively. Since the proof techniques for PCR in the fixed design setting do not readily extend to the online setting, our results rely on adapting tools from modern martingale concentration to the error-in-variables setting. As an application of our bounds, we provide a framework for counterfactual estimation of unit-specific treatment effects in panel data settings when interventions are assigned adaptively. Our framework may be thought of as a generalization of the synthetic interventions framework where data is collected via an adaptive intervention assignment policy.
Cite
Text
Agarwal et al. "Adaptive Principal Component Regression with Applications to Panel Data." Neural Information Processing Systems, 2023.Markdown
[Agarwal et al. "Adaptive Principal Component Regression with Applications to Panel Data." Neural Information Processing Systems, 2023.](https://mlanthology.org/neurips/2023/agarwal2023neurips-adaptive/)BibTeX
@inproceedings{agarwal2023neurips-adaptive,
title = {{Adaptive Principal Component Regression with Applications to Panel Data}},
author = {Agarwal, Anish and Harris, Keegan and Whitehouse, Justin and Wu, Steven Z.},
booktitle = {Neural Information Processing Systems},
year = {2023},
url = {https://mlanthology.org/neurips/2023/agarwal2023neurips-adaptive/}
}