Wireless non-contact cardiac and neural monitoring

Y. Chi, P. Ng, E. Kang, Joseph Kang, Jennifer Fang, G. Cauwenberghs
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引用次数: 89

Abstract

Ubiquitous physiological monitoring will be a key driving force in the upcoming wireless health revolution. Cardiac and brain signals in the form of ECG and EEG are two critical health indicators that directly benefit from long-term monitoring. Despite advancements in wireless technology and electronics miniaturization, however, the use of wireless home ECG/EEG monitoring is still limited by the inconvenience and discomfort of wet adhesive electrodes. We have developed a wireless biopotential instrumentation system using non-contact capacitive electrodes that operate without skin contact. The sensors can be embedded within comfortable layers of fabric for unobtrusive use. All of the issues relating to the design of low noise, high performance capacitive sensors are discussed along with full technical details, circuit schematics and construction techniques. The non-contact electrode has been integrated into both a wearable ECG chest harness as well a EEG headband. We have also designed a compact, battery-powered, wireless data acquisition system to interface with multiple electrodes and monitor patient cardiac and neural signals in real time. Experimental data shows that the non-contact capacitive electrode perform comparable to Ag/AgCl electrodes using our special chest harness and head bands to ensure tight, movement-free electrode positioning.
无线非接触式心脏和神经监测
无处不在的生理监测将是即将到来的无线健康革命的关键驱动力。心电和脑电图形式的心脏和大脑信号是两个重要的健康指标,直接受益于长期监测。然而,尽管无线技术和电子微型化取得了进步,但由于湿式粘接电极的不方便和不舒服,家庭无线心电/脑电图监测的使用仍然受到限制。我们开发了一种无线生物电位仪器系统,使用非接触式电容电极,无需皮肤接触即可操作。传感器可以嵌入舒适的织物层中,不显眼地使用。所有与低噪声,高性能电容传感器的设计有关的问题,以及完整的技术细节,电路原理图和施工技术进行了讨论。这种非接触式电极已被集成到可穿戴ECG胸带和EEG头带中。我们还设计了一个紧凑的,电池供电的无线数据采集系统,与多个电极接口,实时监测患者的心脏和神经信号。实验数据表明,使用我们特殊的胸带和头带,非接触式电容电极的性能可与Ag/AgCl电极相比较,以确保紧密,无运动的电极定位。
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