Lateralization Effects in Electrodermal Activity Data Collected Using Wearable Devices

Leonardo Alchieri, Nouran Abdalazim, Lidia Alecci, Shkurta Gashi, M. Gjoreski, Silvia Santini
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Abstract

Electrodermal activity (EDA) is a physiological signal that can be used to infer humans' affective states and stress levels. EDA can nowadays be monitored using unobtrusive wearable devices, such as smartwatches, and leveraged in personal informatics systems. A still largely uncharted issue concerning EDA is the impact on real applications of potential differences observable on signals measured concurrently on the left and right side of the human body. This phenomenon, called lateralization, originates from the distinct functions that the brain's left and right hemispheres exert on EDA. In this work, we address this issue by examining the impact of EDA lateralization in two classification tasks: a cognitive load recognition task executed in the lab and a sleep monitoring task in a real-world setting. We implement a machine learning pipeline to compare the performance obtained on both classification tasks using EDA data collected from the left and right sides of the body. Our results show that using EDA from the side that is not associated with the specific hemisphere activation leads to a significant decline in performance for the considered classification tasks. This finding highlights that researchers and practitioners relying on EDA data should consider possible EDA lateralization effects when deciding on sensor placement.
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使用可穿戴设备收集的皮电活动数据的侧化效应
皮电活动(EDA)是一种生理信号,可用于推断人类的情感状态和压力水平。如今,EDA 可通过智能手表等不显眼的可穿戴设备进行监测,并可在个人信息系统中加以利用。有关 EDA 的一个仍未解决的问题是,在人体左右两侧同时测量的信号所观察到的潜在差异对实际应用的影响。这种现象被称为 "侧化",源于大脑左右半球对 EDA 的不同功能。在这项工作中,我们通过研究 EDA 侧向化在两个分类任务中的影响来解决这个问题:一个是在实验室中执行的认知负荷识别任务,另一个是在真实世界环境中执行的睡眠监测任务。我们实施了一个机器学习管道,使用从身体左右两侧收集的 EDA 数据来比较这两项分类任务的性能。我们的结果表明,使用与特定半球激活无关的一侧的 EDA 会导致所考虑的分类任务的性能显著下降。这一发现突出表明,研究人员和从业人员在决定传感器位置时,应考虑使用 EDA 数据可能产生的 EDA 侧化效应。
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