Scientific Inference with Interpretable Machine Learning: Analyzing Models to Learn About Real-World Phenomena

IF 4.2 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE Minds and Machines Pub Date : 2024-07-15 DOI:10.1007/s11023-024-09691-z

Timo Freiesleben, Gunnar König, Christoph Molnar, Álvaro Tejero-Cantero

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Abstract

To learn about real world phenomena, scientists have traditionally used models with clearly interpretable elements. However, modern machine learning (ML) models, while powerful predictors, lack this direct elementwise interpretability (e.g. neural network weights). Interpretable machine learning (IML) offers a solution by analyzing models holistically to derive interpretations. Yet, current IML research is focused on auditing ML models rather than leveraging them for scientific inference. Our work bridges this gap, presenting a framework for designing IML methods—termed ’property descriptors’—that illuminate not just the model, but also the phenomenon it represents. We demonstrate that property descriptors, grounded in statistical learning theory, can effectively reveal relevant properties of the joint probability distribution of the observational data. We identify existing IML methods suited for scientific inference and provide a guide for developing new descriptors with quantified epistemic uncertainty. Our framework empowers scientists to harness ML models for inference, and provides directions for future IML research to support scientific understanding.

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利用可解释的机器学习进行科学推断：分析模型以了解真实世界的现象

为了了解现实世界的现象，科学家们历来使用具有明确可解释要素的模型。然而，现代机器学习（ML）模型虽然具有强大的预测能力，却缺乏这种直接的元素可解释性（如神经网络权重）。可解释机器学习（IML）通过对模型进行整体分析以得出解释，提供了一种解决方案。然而，目前的 IML 研究主要集中在审核 ML 模型，而不是利用它们进行科学推断。我们的研究填补了这一空白，提出了一个设计 IML 方法的框架--称为 "属性描述符"，它不仅能阐明模型，还能阐明模型所代表的现象。我们证明，以统计学习理论为基础的属性描述符能有效揭示观测数据联合概率分布的相关属性。我们确定了适合科学推断的现有 IML 方法，并为开发具有量化认识不确定性的新描述符提供了指导。我们的框架使科学家能够利用 ML 模型进行推断，并为未来的 IML 研究提供了方向，以支持科学理解。

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来源期刊

Minds and Machines 工程技术-计算机：人工智能

CiteScore

12.60

自引率

2.70%

发文量

审稿时长

>12 weeks

期刊介绍： Minds and Machines, affiliated with the Society for Machines and Mentality, serves as a platform for fostering critical dialogue between the AI and philosophical communities. With a focus on problems of shared interest, the journal actively encourages discussions on the philosophical aspects of computer science. Offering a global forum, Minds and Machines provides a space to debate and explore important and contentious issues within its editorial focus. The journal presents special editions dedicated to specific topics, invites critical responses to previously published works, and features review essays addressing current problem scenarios. By facilitating a diverse range of perspectives, Minds and Machines encourages a reevaluation of the status quo and the development of new insights. Through this collaborative approach, the journal aims to bridge the gap between AI and philosophy, fostering a tradition of critique and ensuring these fields remain connected and relevant.

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