Abstract
Conventional deep learning architectures do not adequately address the requirements of wearable high-precision medical devices such as blood pressure (BP) monitors. This paper presents a novel hybrid deep learning architecture that leverages advancements in sensors and signal processing modules for cuffless and continuous BP monitoring devices, emphasizing enhanced precision in an energy constrained system. The proposed architecture comprises a combination of a convolutional neural network and a bidirectional gated recurrent unit. The proposed model adopts a data-driven end-to-end approach to directly process raw photoplethysmography (PPG) signals, enabling simultaneous estimation of systolic BP and diastolic BP without the need for feature extraction. Performance evaluation was conducted using the Multiparameter Intelligent Monitoring in Intensive Care II dataset, yielding small mean errors of 0.664 mmHg and −0.028 mmHg for the estimated and reference SBP and DBP, respectively. © 2024 IEEE.
| Original language | English |
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| Title of host publication | Proceedings of the 3rd IEEE International Conference on Micro/Nano Sensors for AI, Healthcare and Robotics |
| Publisher | IEEE |
| Pages | 35-40 |
| ISBN (Electronic) | 979-8-3503-7521-3 |
| ISBN (Print) | 979-8-3503-7522-0 |
| DOIs | |
| Publication status | Published - 2024 |
| Event | 3rd IEEE International Conference on Micro/Nano Sensors for AI, Healthcare and Robotics (IEEE-NSENS 2024) - Shenzhen Convention and Exhibition Center, Shenzhen, China Duration: 2 Mar 2024 → 3 Mar 2024 https://www.ieeensens.org/ |
Conference
| Conference | 3rd IEEE International Conference on Micro/Nano Sensors for AI, Healthcare and Robotics (IEEE-NSENS 2024) |
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| Abbreviated title | NSENS 2024 |
| Country/Territory | China |
| City | Shenzhen |
| Period | 2/03/24 → 3/03/24 |
| Internet address |