A Model to Predict Heartbeat Rate Using Deep Learning Algorithms.
Ahmed AlsheikhyYahia F SaidTawfeeq ShawlyHusam LahzaPublished in: Healthcare (Basel, Switzerland) (2023)
ECG provides critical information in a waveform about the heart's condition. This information is crucial to physicians as it is the first thing to be performed by cardiologists. When COVID-19 spread globally and became a pandemic, the government of Saudi Arabia placed various restrictions and guidelines to protect and save citizens and residents. One of these restrictions was preventing individuals from touching any surface in public and private places. In addition, the authorities placed a mandatory rule in all public facilities and the private sector to evaluate the temperature of individuals before entering. Thus, the idea of this study stems from the need to have a touchless technique to determine heartbeat rate. This article proposes a viable and dependable method to estimate an average heartbeat rate based on the reflected light on the skin. This model uses various deep learning tools, including AlexNet, Convolutional Neural Networks (CNNs), Long Short-Term Memory Networks (LSTMs), and ResNet50V2. Three scenarios have been conducted to evaluate and validate the presented model. In addition, the proposed approach takes its inputs from video streams and converts these streams into frames and images. Numerous trials have been conducted on volunteers to validate the method and assess its outputs in terms of accuracy, mean absolute error (MAE), and mean squared error (MSE). The proposed model achieves an average 99.78% accuracy, MAE is 0.142 when combing LSTMs and ResNet50V2, while MSE is 1.82. Moreover, a comparative measurement between the presented algorithm and some studies from the literature based on utilized methods, MAE, and MSE are performed. The achieved outcomes reveal that the developed technique surpasses other methods. Moreover, the findings show that this algorithm can be applied in healthcare facilities and aid physicians.
Keyphrases
- deep learning
- convolutional neural network
- healthcare
- machine learning
- artificial intelligence
- coronavirus disease
- saudi arabia
- primary care
- systematic review
- mental health
- gene expression
- emergency department
- health information
- skeletal muscle
- working memory
- soft tissue
- heart rate variability
- social media
- genome wide
- respiratory syndrome coronavirus
- insulin resistance
- single cell
- case control