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The system estimates the respiration rate of a driver based on phase values sampled from multiple RFID tags attached to the seat belt, while exploiting the tag diversity to combat the strong noise in the driving environment.
Respiration Monitoring With RFID in Driving Environments - IEEE Xplore
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Aug 31, 2020 · In this paper, we propose, for the first time, an RFID based respiration monitoring system for driving environments.
The system estimates the respiration rate of a driver based on phase values sampled from multiple RFID tags attached to the seat belt, while exploiting the tag ...
FIU Discovery · Respiration Monitoring With RFID in Driving Environments Article · Overview · Research · Identifiers · Additional Document Info. publisher. IEEE ...
Sep 18, 2024 · Firstly, RFID technology enables wireless and contactless respiratory monitoring in real-time. It is a significant improvement over traditional ...
Specifically, to effectively detect the nodding features with RFID tags in a driving environment, we deploy two RFID tags on a hat worn by the driver, and ...
A robust RFID-based RM is presented to estimate accurate respiration rate and detect apnea in dynamic environments [23]. The AutoTag system [24] is proposed as�...
We focus on our work of respiration monitoring using RFID systems. Respiration monitoring helps assess health conditions and guide the treatment of chronic ...
Sep 18, 2024 · The system measures respiratory rate during daily exercise and maintains an accuracy of no less than 86.12%, even when influenced by lying down and turning.
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Respiration monitoring (RM) is crucial for tracking various health problems. Recently, RFID has been widely employed for lightweight and low-cost RM.