| Name: | Description: | Size: | Format: | |
|---|---|---|---|---|
| 2.05 MB | Adobe PDF |
Advisor(s)
Abstract(s)
The market for Wearable Health Monitoring Systems
(WHMS) has grown together with the demand for devices that offer
greater medical reliability and lower cost. This study introduces a wearable
system comprising conditioning blocks for electrocardiogram and
surface electromyogram signals, an analog-to-digital converter, and wireless
data transmission capabilities. These features have been implemented
reliably in accordance with the specific requirements of these
signals, as well as complying with patient safety directives and ensuring
the quality of the resulting signal, allowing it to be used as a data
collector for subsequent software implementation. To evaluate its performance,
this system is compared against commercially available wearable
devices, and the expected outcomes are examined. The obtained results
are then presented, showcasing the system’s capabilities and leading to
a positive conclusion. As future work, there is a focus on enhancing the
user interface and implement digital processing in the result for use in
pathology recognition software with greater accuracy.
Description
Keywords
Electrocardiogram ECG Electromyogram EMG Surface Electromyogram sEMG Signal Conditioning Wearable Health Monitoring Systems WHMS
Citation
Luiz, Luiz E.; Coutinho, Fábio R.; Teixeira, João P. (2024). ECG and sEMG Conditioning and Wireless Transmission with a Biosignal Acquisition Board. In 3rd Inernational Conference on Optimization, Learning Algorithms and Applications (OL2A 2023). Cham: Springter Nature, Vol. 2, p. 355–367. ISBN 978-3-031-53035-7
Publisher
Springer Nature