Machine Learning is proving invaluable across disciplines. However, its success is often limited by the quality and quantity of available data, while its adoption by the level of trust that models afford users. Human vs. machine performance is commonly compared empirically to decide whether a certain task should be performed by a computer or an expert. In reality, the optimal learning strategy may involve combining the complementary strengths of man and machine. Here we present Expert-Augmented Machine Learning (EAML), an automated method that guides the extraction of expert knowledge and its integration into machine-learned models. We use a large dataset of intensive care patient data to predict mortality and show that we can extract expert knowledge using an online platform, help reveal hidden confounders, improve generalizability on a different population and learn using less data. EAML presents a novel framework for high performance and dependable machine learning in critical applications.
翻译:然而,其成功往往受到现有数据的质量和数量的限制,而其成功往往受到现有数据的质量和数量的限制,而其采用则受到模型给用户带来的信任程度的限制。人类对机器的性能通常通过经验比较来决定某一任务应由计算机还是专家来完成。在现实中,最佳的学习战略可能涉及将人和机器的互补优势结合起来。这里我们介绍专家辅助机器学习(EAML),这是一种自动化方法,用以指导专家知识的提取及其融入机器的模型。我们使用大量特护病人数据来预测死亡率,并表明我们能够利用在线平台获取专业知识,帮助揭示隐藏的困惑者,提高不同人群的可理解性,并利用较少的数据学习。EAML为在关键应用中高性能和可信赖的机器学习提供了一个新的框架。
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