Physiological-based driver monitoring systems: A scoping review
A physiological-based driver monitoring system (DMS) has attracted research interest and
has great potential for providing more accurate and reliable monitoring of the driver's state …
has great potential for providing more accurate and reliable monitoring of the driver's state …
A focused review on the flexible wearable sensors for sports: From kinematics to physiologies
L Liu, X Zhang - Micromachines, 2022 - mdpi.com
As an important branch of wearable electronics, highly flexible and wearable sensors are
gaining huge attention due to their emerging applications. In recent years, the participation …
gaining huge attention due to their emerging applications. In recent years, the participation …
ECG-Based Real-Time Drivers' Fatigue Detection Using A Novel Elastic Dry Electrode
F Wang, W Yao, B Lu, R Fu - IEEE Transactions on …, 2023 - ieeexplore.ieee.org
In view of the complicated placement process of wet electrodes used for driving fatigue
detection based on electrocardiogram (ECG) characteristics, this study proposed a novel …
detection based on electrocardiogram (ECG) characteristics, this study proposed a novel …
An Electrocardiogram-Based Driver Stress Detection Scheme Using Ensembled Multiscale Classifier
Improving driving safety is the key to reducing traffic accidents caused by human factors
such as cognitive errors, judgment errors, slow emergency response, etc. Studies have …
such as cognitive errors, judgment errors, slow emergency response, etc. Studies have …
A Review on Intelligent Systems for ECG Analysis: from Flexible Sensing Technology to Machine Learning
TMC Pereira, R Sebastiao… - IEEE Journal of …, 2024 - ieeexplore.ieee.org
This paper conducts an extensive review of flexible cardiac sensing devices designed for
electrocardiogram (ECG) acquisitions, with emphasis on their application in cardiac health …
electrocardiogram (ECG) acquisitions, with emphasis on their application in cardiac health …
Monitoring Physiological State of Drivers Using In-Vehicle Sensing of Non-Invasive Signal
SFA Razak, SNMS Ismail, BHB Bin… - Civil Engineering …, 2024 - civilejournal.org
Eighty percent of traffic accidents are caused by human error, called hypo vigilance,
stemming from drowsiness, stress, or distraction while driving. This poses a significant threat …
stemming from drowsiness, stress, or distraction while driving. This poses a significant threat …
Robust in-vehicle heartbeat detection using multimodal signal fusion
A medical check-up during driving enables the early detection of diseases. Heartbeat
irregularities indicate possible cardiovascular diseases, which can be determined with …
irregularities indicate possible cardiovascular diseases, which can be determined with …
Classifying Driver Distraction with Textile Electrocardiograms
K Pavan, VS Roha, T Igasaki… - 2024 46th Annual …, 2024 - ieeexplore.ieee.org
Textile sensor-based vital sign assessment plays an important role in continuous monitoring
due to its unobtrusive and non-invasiveness. Textile electrocardiography (ECG) sensors …
due to its unobtrusive and non-invasiveness. Textile electrocardiography (ECG) sensors …
On the recognition of the game type based on physiological signals and eye tracking
Ł Czekaj, Ł Radzinski, M Kolimaga… - arXiv preprint arXiv …, 2023 - arxiv.org
Automated interpretation of signals yields many impressive applications from the area of
affective computing and human activity recognition (HAR). In this paper we ask the question …
affective computing and human activity recognition (HAR). In this paper we ask the question …
Combining vehicle BUS and vital sign sensors for continuous health monitoring during driving: Concept and first results
TM Deserno, JM Warnecke… - 2022 International …, 2022 - ieeexplore.ieee.org
Continuous health monitoring is the key to change the paradigm in medicine from
diagnostics & therapy to prediction and prevention. As humans, on average, spend about 1 …
diagnostics & therapy to prediction and prevention. As humans, on average, spend about 1 …