Low-Power Discreetly-Wearable Smart ECG Patch with On-Board Analytics
This paper introduces a self-contained wearable Smart ECG Patch (SEP) implemented on a flexible substrate. SEP is capable of acquiring ECG signals from the wearer using gold electrodes on its reverse surface, perform front-end processing using analog circuitry, digitize the signal and perform furthe...
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| Published in | 2020 IEEE International Symposium on Medical Measurements and Applications (MeMeA) pp. 1 - 6 |
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| Main Authors | , , , |
| Format | Conference Proceeding |
| Language | English |
| Published |
IEEE
01.06.2020
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| Subjects | |
| Online Access | Get full text |
| DOI | 10.1109/MeMeA49120.2020.9137284 |
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| Abstract | This paper introduces a self-contained wearable Smart ECG Patch (SEP) implemented on a flexible substrate. SEP is capable of acquiring ECG signals from the wearer using gold electrodes on its reverse surface, perform front-end processing using analog circuitry, digitize the signal and perform further processing to remove motion artifacts and noise. SEP also calculates heart rate and heart rate variability and sends these along with the digitized ECG signal to a host device via a secure Bluetooth link for display and further analysis. Further, SEP implements a series of power management techniques that progressively increase its operation time on a single button battery. The functionality and sensitivity of SEP to cardiac changes was verified by testing with archived ECG signals and during use on human subjects under appropriate IRB protocols. The human testing included cycling from rest to mild exercise and return to rest. |
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| AbstractList | This paper introduces a self-contained wearable Smart ECG Patch (SEP) implemented on a flexible substrate. SEP is capable of acquiring ECG signals from the wearer using gold electrodes on its reverse surface, perform front-end processing using analog circuitry, digitize the signal and perform further processing to remove motion artifacts and noise. SEP also calculates heart rate and heart rate variability and sends these along with the digitized ECG signal to a host device via a secure Bluetooth link for display and further analysis. Further, SEP implements a series of power management techniques that progressively increase its operation time on a single button battery. The functionality and sensitivity of SEP to cardiac changes was verified by testing with archived ECG signals and during use on human subjects under appropriate IRB protocols. The human testing included cycling from rest to mild exercise and return to rest. |
| Author | Mittal, Sandeep S. Ghose, Kanad Zabran, Madina Turner, James N. |
| Author_xml | – sequence: 1 givenname: Sandeep S. surname: Mittal fullname: Mittal, Sandeep S. organization: State University of New York,Department of Computer Science,Binghamton,NY,USA – sequence: 2 givenname: Madina surname: Zabran fullname: Zabran, Madina organization: State University of New York,Department of Computer Science,Binghamton,NY,USA – sequence: 3 givenname: Kanad surname: Ghose fullname: Ghose, Kanad organization: State University of New York,Department of Computer Science,Binghamton,NY,USA – sequence: 4 givenname: James N. surname: Turner fullname: Turner, James N. organization: State University of New York,S3IP,Binghamton,NY,USA |
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| Snippet | This paper introduces a self-contained wearable Smart ECG Patch (SEP) implemented on a flexible substrate. SEP is capable of acquiring ECG signals from the... |
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| SubjectTerms | Batteries ECG sensor Electrocardiography Heart rate variability HRV Performance evaluation Signal analysis Substrates Surface treatment wearable sensor |
| Title | Low-Power Discreetly-Wearable Smart ECG Patch with On-Board Analytics |
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