A High Frame Rate Wearable EIT System Using Active Electrode ASICs for Lung Respiration and Heart Rate Monitoring

Yu Wu; Dai Jiang; Andy Bardill; Serena de Gelidi; Richard Bayford; Andreas Demosthenous

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A High Frame Rate Wearable EIT System Using Active Electrode ASICs for Lung Respiration and Heart Rate Monitoring

机译：使用有源电极ASIC的高帧速可穿戴EIT系统用于肺呼吸和心率监测

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A high specification, wearable, electrical impedance tomography (EIT) system with 32 active electrodes is presented. Each electrode has an application specific integrated circuit (ASIC) mounted on a flexible printed circuit board, which is then wrapped inside a disposable fabric cover containing silver-coated electrodes to form the wearable belt. It is connected to a central hub that operates all the 32 ASICs. Each ASIC comprises a high-performance current driver capable of up to 6 mA_p-poutput, a voltage buffer for EIT and heart rate signal recording as well as contact impedance monitoring, and a sensor buffer that provides multi-parameter sensing. The ASIC was designed in a CMOS 0.35-μm high-voltage process technology. It operates from ±9 V power supplies and occupies a total die area of 3.9 mm^{2. The EIT system has a bandwidth of 500 kHz and employs two parallel data acquisition channels to achieve a frame rate of 107 frames/s, the fastest wearable EIT system reported to date. Measured results show that the system has a measurement accuracy of 98.88% and a minimum EIT detectability of 0.86 Q/frame. Its successful operation in capturing EIT lung respiration and heart rate biosignals from a volunteer is demonstrated.}

机译：提出了具有32个有源电极的高规格，可穿戴，电阻抗断层成像（EIT）系统。每个电极都有一个安装在柔性印刷电路板上的专用集成电路（ASIC），然后将其包裹在包含银涂层电极的一次性织物盖内，以形成可穿戴皮带。它连接到运行所有32种ASIC的中央集线器。每个ASIC都包含一个高性能电流驱动器，该驱动器的最大电流为6 mA n _ppoutput，用于EIT和心率信号记录以及接触阻抗监视的电压缓冲器，以及提供多参数感测的传感器缓冲器。 ASIC是采用CMOS0.35-μm高压工艺技术设计的。它使用±9 V电源供电，总管芯面积为3.9 mm n ^{2。 EIT系统的带宽为500 kHz，并使用两个并行数据采集通道以达到107帧/秒的帧速率，这是迄今为止报道的最快的可穿戴EIT系统。测量结果表明，该系统的测量精度为98.88％，最小EIT可检测度为0.86 Q /帧。证明了它在捕获志愿者的EIT肺呼吸和心率生物信号方面的成功运作。}

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《IEEE transactions on circuits and systems . I , Regular papers》 |2018年第11期|3810-3820|共11页
作者
Yu Wu; Dai Jiang; Andy Bardill; Serena de Gelidi; Richard Bayford; Andreas Demosthenous;
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作者单位

Department of Electronic and Electrical Engineering, University College London, London, U.K.;

Department of Electronic and Electrical Engineering, University College London, London, U.K.;

Department of Natural Sciences, Middlesex University, London, U.K.;

Department of Natural Sciences, Middlesex University, London, U.K.;

Department of Natural Sciences, Middlesex University, London, U.K.;

Department of Electronic and Electrical Engineering, University College London, London, U.K.;

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正文语种 eng
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关键词
Electrodes; Tomography; Belts; Biomedical monitoring; Monitoring; Lung; Heart rate;

机译：电极;断层扫描;皮带;生物医学监测;监测;肺;心律;

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5. Non-invasive Wearable Wristband for Heart Rate and Respiration Rate Estimation Using Photoplethysmography with Motion Artifact Removal [D] . Badhan, Aniket Bapu. 2018

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A High Frame Rate Wearable EIT System Using Active Electrode ASICs for Lung Respiration and Heart Rate Monitoring

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