Selecting the best regularization parameter in inverse problems is a classical and yet challenging problem. Recently, data-driven approaches have become popular to tackle this challenge. These approaches are appealing since they do require less a priori knowledge, but their theoretical analysis is limited. In this paper, we propose and study a statistical machine learning approach, based on empirical risk minimization. Our main contribution is a theoretical analysis, showing that, provided with enough data, this approach can reach sharp rates while being essentially adaptive to the noise and smoothness of the problem. Numerical simulations corroborate and illustrate the theoretical findings. Our results are a step towards grounding theoretically data-driven approaches to inverse problems.

翻译：选择反问题中的最优正则化参数是一个经典且具有挑战性的问题。近年来，数据驱动方法已成为解决该问题的流行手段。这类方法因需较少先验知识而颇具吸引力，但其理论分析仍十分有限。本文提出并研究了一种基于经验风险最小化的统计机器学习方法。我们的主要贡献在于理论分析，表明在拥有足够数据的前提下，该方法能够达到锐利收敛速率，同时对问题的噪声和平滑性具有本质自适应性。数值模拟验证并阐释了理论结果。该研究为从理论上奠定反问题数据驱动方法的基础迈出了重要一步。