[Wearable Device for Non-Invasive Continuously Blood Pressure Monitoring].

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Jiehui Jiang, Jun Xu, Hucheng Zhou, Zhuangzhi Yan

Author Information

Jiehui Jiang: Shanghai Institute of Advanced Communications and Data Science, Shanghai University, Shanghai, 200444.
Jun Xu: Shanghai Institute of Advanced Communications and Data Science, Shanghai University, Shanghai, 200444.
Hucheng Zhou: Shanghai Institute of Advanced Communications and Data Science, Shanghai University, Shanghai, 200444.
Zhuangzhi Yan: Institute of Biomedical Engineering, Shanghai University, Shanghai, 200444.

PMID: 30560615 DOI: 10.3969/j.issn.1671-7104.2018.06.003

In aging society the development of non-invasive continuously blood pressure monitors which are suitable for homes, communities and nursing homes has a wide range of applications. This paper proposes a non-invasive continuously blood pressure monitoring based on wearable device which uses MSP430F5529 as the central processor. The design is divided into signal acquisition module, central control module, display module, power supply module and host computer module. The experimental results showed that DBP (375/390, 96.15%) and SBP estimation values (377/390, 96.67%) are in 95% confidence interval, which means our design passes Bland-Altman test with high accuracy and stability.

MSP430F5529 non-invasive continuously blood pressure measurement wearable device

Blood Pressure

Blood Pressure Determination

Blood Pressure Monitors

Electric Power Supplies

Wearable Electronic Devices

Journal Article

Tissue-informative mechanism for wearable non-invasive continuous blood pressure monitoring.Benefit of wearable blood pressure monitoring device in Society 5.0.[Non-invasive blood pressure measuring device].[Wearable chemical sensors for non-invasive monitoring].Blood pressure monitoring--automated non-invasive blood pressure monitors.[Blood pressure determination. b. Non-invasive monitoring].Advances in Non-Invasive Blood Pressure Monitoring.Non-invasive blood pressure monitoring in man.A Pilot Study of Blood Pressure Monitoring After Cardiac Surgery Using a Wearable, Non-invasive Sensor.A Low-power wearable acoustic device for accurate invasive arterial pressure monitoring.

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