Early stopping for L2-boosting in high-dimensional linear models
研究高维线性模型中L2-boosting算法的数据驱动早停时间,该方法仅需前几次迭代即可完成,计算成本远低于传统模型选择准则,且统计最优性得以保持。
Increasingly high-dimensional data sets require that estimation methods do not only satisfy statistical guarantees but also remain computationally feasible. In this context, we consider L2-boosting via orthogonal matching pursuit in a high-dimensional linear model and analyze a data-driven early stopping time τ of the algorithm, which is sequential in the sense that its computation is based on the first τ iterations only. This approach is much less costly than established model selection criteria, that require the computation of the full boosting path, which may even be computationally infeasible in truly high-dimensional applications. We prove that sequential early stopping preserves statistical optimality in this setting in terms of a fully general oracle inequality for the empirical risk and recently established optimal convergence rates for the population risk. Finally, an extensive simulation study shows that at a significantly reduced computational cost, the performance of early stopping methods is on par with other state of the art algorithms such as the cross-validated Lasso or model selection via a high-dimensional Akaike criterion based on the full boosting path.