Relaxing the i.i.d. assumption: Adaptively minimax optimal regret via root-entropic regularization

IF 3.2 1区数学 Q1 STATISTICS & PROBABILITY

Annals of Statistics Pub Date : 2023-08-01 DOI:10.1214/23-aos2315

Blair Bilodeau, Jeffrey Negrea, Daniel M. Roy

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引用次数: 7

Abstract

We consider prediction with expert advice when data are generated from distributions varying arbitrarily within an unknown constraint set. This semi-adversarial setting includes (at the extremes) the classical i.i.d. setting, when the unknown constraint set is restricted to be a singleton, and the unconstrained adversarial setting, when the constraint set is the set of all distributions. The Hedge algorithm—long known to be minimax (rate) optimal in the adversarial regime—was recently shown to be simultaneously minimax optimal for i.i.d. data. In this work, we propose to relax the i.i.d. assumption by seeking adaptivity at all levels of a natural ordering on constraint sets. We provide matching upper and lower bounds on the minimax regret at all levels, show that Hedge with deterministic learning rates is suboptimal outside of the extremes and prove that one can adaptively obtain minimax regret at all levels. We achieve this optimal adaptivity using the follow-the-regularized-leader (FTRL) framework, with a novel adaptive regularization scheme that implicitly scales as the square root of the entropy of the current predictive distribution, rather than the entropy of the initial predictive distribution. Finally, we provide novel technical tools to study the statistical performance of FTRL along the semi-adversarial spectrum.

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放宽i.i.d假设:基于根熵正则化的自适应最小最大最优后悔

当数据是从一个未知约束集内任意变化的分布中生成时，我们考虑专家建议的预测。这种半对抗设置包括(在极端情况下)经典的i.i.d.设置，当未知约束集被限制为单个时，以及无约束对抗设置，当约束集是所有分布的集合时。对冲算法——长期以来被认为是对抗状态下的最大最小(率)最优算法——最近被证明同时是id数据的最大最小最优算法。在这项工作中，我们建议通过在约束集的自然排序的所有层次上寻求自适应性来放宽i.i.d假设。我们提供了所有级别上的最大最小遗憾的匹配上界和下界，证明了具有确定性学习率的Hedge在极端之外是次优的，并证明了人们可以自适应地在所有级别上获得最大最小遗憾。我们使用遵循正则化领导者(FTRL)框架实现了这种最优自适应，并采用了一种新的自适应正则化方案，该方案隐式缩放为当前预测分布的熵的平方根，而不是初始预测分布的熵。最后，我们提供了新的技术工具来研究FTRL在半对抗频谱上的统计性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annals of Statistics 数学-统计学与概率论

CiteScore

9.30

自引率

8.90%

发文量

119

审稿时长

6-12 weeks

期刊介绍： The Annals of Statistics aim to publish research papers of highest quality reflecting the many facets of contemporary statistics. Primary emphasis is placed on importance and originality, not on formalism. The journal aims to cover all areas of statistics, especially mathematical statistics and applied & interdisciplinary statistics. Of course many of the best papers will touch on more than one of these general areas, because the discipline of statistics has deep roots in mathematics, and in substantive scientific fields.