利用观察型可穿戴设备数据生成因果假设的标量函数因果关系发现。

Q2 Computer Science
Valeriya Rogovchenko, Austin Sibu, Yang Ni
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引用次数: 0

摘要

可穿戴设备等数字健康技术改变了健康数据分析,为各种健康指标提供了连续、高分辨率的功能数据,从而为创新研究开辟了新途径。在这项工作中,我们介绍了一种新方法,用于为一对连续功能变量(如随时间记录的体力活动)和二元标量变量(如行动状况指标)生成因果假设。我们的方法超越了传统的以关联为重点的方法,具有揭示潜在因果机制的潜力。我们从理论上证明,所提出的标量函数因果模型仅凭观察数据就可以识别。我们的可识别性理论证明,通过比较相互竞争的因果假设的似然函数,可以使用一种简单而原则性强的算法来辨别因果关系。我们的方法通过模拟研究和实际应用(使用美国国家健康与营养调查的可穿戴设备数据)证明了其稳健性和适用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Scalar-Function Causal Discovery for Generating Causal Hypotheses with Observational Wearable Device Data.

Digital health technologies such as wearable devices have transformed health data analytics, providing continuous, high-resolution functional data on various health metrics, thereby opening new avenues for innovative research. In this work, we introduce a new approach for generating causal hypotheses for a pair of a continuous functional variable (e.g., physical activities recorded over time) and a binary scalar variable (e.g., mobility condition indicator). Our method goes beyond traditional association-focused approaches and has the potential to reveal the underlying causal mechanism. We theoretically show that the proposed scalar-function causal model is identifiable with observational data alone. Our identifiability theory justifies the use of a simple yet principled algorithm to discern the causal relationship by comparing the likelihood functions of competing causal hypotheses. The robustness and applicability of our method are demonstrated through simulation studies and a real-world application using wearable device data from the National Health and Nutrition Examination Survey.

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CiteScore
4.50
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