Burns Adrian, Doheny Emer P, Greene Barry R, Foran Timothy, Leahy Daniel, O'Donovan Karol, McGrath Michael J
Intel's Digital Health Group, Ireland.
Annu Int Conf IEEE Eng Med Biol Soc. 2010;2010:3759-62. doi: 10.1109/IEMBS.2010.5627535.
Wireless sensor networks have become increasingly common in everyday applications due to decreasing technology costs and improved product performance, robustness and extensibility. Wearable physiological monitoring systems have been utilized in a variety of studies, particularly those investigating ECG or EMG during human movement or sleep monitoring. These systems require extensive validation to ensure accurate and repeatable functionality. Here we validate the physiological signals (EMG, ECG and GSR) of the SHIMMER (Sensing Health with Intelligence, Modularity, Mobility and Experimental Reusability) against known commercial systems. Signals recorded by the SHIMMER EMG, ECG and GSR daughter-boards were found to compare well to those obtained by commercial systems.
由于技术成本降低以及产品性能、耐用性和可扩展性的提高,无线传感器网络在日常应用中越来越普遍。可穿戴生理监测系统已在各种研究中得到应用,特别是那些在人体运动或睡眠监测期间研究心电图(ECG)或肌电图(EMG)的研究。这些系统需要进行广泛的验证,以确保功能准确且可重复。在此,我们将SHIMMER(具有智能、模块化、移动性和实验可重用性的健康传感)的生理信号(EMG、ECG和皮肤电反应(GSR))与已知的商业系统进行验证。结果发现,SHIMMER EMG、ECG和GSR子板记录的信号与商业系统获得的信号具有良好的可比性。
