Driving Safety and Real-Time Glucose Monitoring in Insulin-Dependent Diabetes.

Q3 Engineering
Jennifer Merickel, Robin High, Lynette Smith, Christopher Wichman, Emily Frankel, Kaitlin Smits, Andjela Drincic, Cyrus Desouza, Pujitha Gunaratne, Kazutoshi Ebe, Matthew Rizzo
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引用次数: 15

Abstract

Our goal is to address the need for driver-state detection using wearable and in-vehicle sensor measurements of driver physiology and health. To address this goal, we deployed in-vehicle systems, wearable sensors, and procedures capable of quantifying real-world driving behavior and performance in at-risk drivers with insulin-dependent type 1 diabetes mellitus (DM). We applied these methodologies over 4 weeks of continuous observation to quantify differences in real-world driver behavior profiles associated with physiologic changes in drivers with DM (N=19) and without DM (N=14). Results showed that DM driver behavior changed as a function of glycemic state, particularly hypoglycemia. DM drivers often drive during at-risk physiologic states, possibly due to unawareness of impairment, which in turn may relate to blunted physiologic responses (measurable heart rate) to hypoglycemia after repeated episodes of hypoglycemia. We found that this DM driver cohort has an elevated risk of crashes and citations, which our results suggest is linked to the DM driver's own momentary physiology. Overall, our findings demonstrate a clear link between at-risk driver physiology and real-world driving. By discovering key relationships between naturalistic driving and parameters of contemporaneous physiologic changes, like glucose control, this study directly advances the goal of driver-state detection through wearable physiologic sensors as well as efforts to develop "gold standard" metrics of driver safety and an individualized approach to driver health and wellness.

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胰岛素依赖型糖尿病的驾驶安全和实时血糖监测。
我们的目标是利用可穿戴式和车载传感器测量驾驶员的生理和健康,解决驾驶员状态检测的需求。为了实现这一目标,我们部署了车载系统、可穿戴传感器和程序,能够量化胰岛素依赖型1型糖尿病(DM)高危驾驶员的真实驾驶行为和表现。我们在4周的连续观察中应用了这些方法,量化了与DM (N=19)和非DM (N=14)驾驶员生理变化相关的真实驾驶员行为特征的差异。结果表明,糖尿病驾驶员的行为随血糖状态,尤其是低血糖状态而改变。糖尿病司机经常在危险的生理状态下开车,可能是由于没有意识到损伤,这反过来可能与反复发作的低血糖后对低血糖的生理反应迟钝(可测量的心率)有关。我们发现,这组糖尿病司机发生车祸和被引证的风险较高,我们的研究结果表明,这与糖尿病司机自身的瞬间生理有关。总的来说,我们的研究结果表明,危险驾驶员的生理机能与现实驾驶之间存在明显的联系。通过发现自然驾驶与同时发生的生理变化参数(如血糖控制)之间的关键关系,本研究直接推进了通过可穿戴生理传感器检测驾驶员状态的目标,并努力开发驾驶员安全的“黄金标准”指标和个性化的驾驶员健康和保健方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Automotive Engineering
International Journal of Automotive Engineering Engineering-Safety, Risk, Reliability and Quality
CiteScore
1.10
自引率
0.00%
发文量
16
期刊介绍: The IJAE aims to cover all the main areas of automotive engineering. -Heat engine -Power transmission -Vehicle dynamics -Vehicle development -Vibration , noise , ride comfort -Heat , fluid -Materials -Social system -Common infrastructure -Other means of mobility -EV , HV systems -Electronics and control -Transportation systems -Autonomous vehicle technology -Information & Communication Technology -Information security -Safety -Human engineering -Environment , energy , resources -Production , manufacture
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