SWoTTeD:将张量分解扩展到时间表型分析

IF 4.3 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Hana Sebia, Thomas Guyet, Etienne Audureau
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引用次数: 0

摘要

最近,张量分解法在机器学习领域越来越受到关注,它可用于分析电子健康记录等单个痕迹。然而,当数据遵循复杂的时间模式时,这项任务就变得困难得多。本文引入了时态表型的概念,将其视为随时间变化的特征排列,并提出了 SWoTTeD(用于时态张量分解的滑动窗口),这是一种发现隐藏时态模式的新方法。SWoTTeD 整合了多个约束条件和正则化,以提高提取表型的可解释性。我们使用合成数据集和真实世界数据集验证了我们的建议,并使用大巴黎大学医院的数据介绍了一个原创案例。结果表明,SWoTTeD 所实现的重建精确度至少不亚于最近最先进的张量分解模型,而且提取的时间表型对临床医生来说非常有意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

SWoTTeD: an extension of tensor decomposition to temporal phenotyping

SWoTTeD: an extension of tensor decomposition to temporal phenotyping

Tensor decomposition has recently been gaining attention in the machine learning community for the analysis of individual traces, such as Electronic Health Records. However, this task becomes significantly more difficult when the data follows complex temporal patterns. This paper introduces the notion of a temporal phenotype as an arrangement of features over time and it proposes SWoTTeD (Sliding Window for Temporal Tensor Decomposition), a novel method to discover hidden temporal patterns. SWoTTeD integrates several constraints and regularizations to enhance the interpretability of the extracted phenotypes. We validate our proposal using both synthetic and real-world datasets, and we present an original usecase using data from the Greater Paris University Hospital. The results show that SWoTTeD achieves at least as accurate reconstruction as recent state-of-the-art tensor decomposition models, and extracts temporal phenotypes that are meaningful for clinicians.

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来源期刊
Machine Learning
Machine Learning 工程技术-计算机:人工智能
CiteScore
11.00
自引率
2.70%
发文量
162
审稿时长
3 months
期刊介绍: Machine Learning serves as a global platform dedicated to computational approaches in learning. The journal reports substantial findings on diverse learning methods applied to various problems, offering support through empirical studies, theoretical analysis, or connections to psychological phenomena. It demonstrates the application of learning methods to solve significant problems and aims to enhance the conduct of machine learning research with a focus on verifiable and replicable evidence in published papers.
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