Artificial Intelligence Based Approach for Classification of Human Activities Using MEMS Sensors Data.
Yusuf Ahmed KhanSyed ImaduddinYash Pratap SinghMohd WajidMohammed UsmanMohamed AbbasPublished in: Sensors (Basel, Switzerland) (2023)
The integration of Micro Electronic Mechanical Systems (MEMS) sensor technology in smartphones has greatly improved the capability for Human Activity Recognition (HAR). By utilizing Machine Learning (ML) techniques and data from these sensors, various human motion activities can be classified. This study performed experiments and compiled a large dataset of nine daily activities, including Laying Down, Stationary, Walking, Brisk Walking, Running, Stairs-Up, Stairs-Down, Squatting, and Cycling. Several ML models, such as Decision Tree Classifier, Random Forest Classifier, K Neighbors Classifier, Multinomial Logistic Regression, Gaussian Naive Bayes, and Support Vector Machine, were trained on sensor data collected from accelerometer, gyroscope, and magnetometer embedded in smartphones and wearable devices. The highest test accuracy of 95% was achieved using the random forest algorithm. Additionally, a custom-built Bidirectional Long-Short-Term Memory (Bi-LSTM) model, a type of Recurrent Neural Network (RNN), was proposed and yielded an improved test accuracy of 98.1%. This approach differs from traditional algorithmic-based human activity detection used in current wearable technologies, resulting in improved accuracy.
Keyphrases
- machine learning
- artificial intelligence
- endothelial cells
- neural network
- big data
- deep learning
- induced pluripotent stem cells
- pluripotent stem cells
- electronic health record
- climate change
- physical activity
- mass spectrometry
- resistance training
- heat stress
- low cost
- lower limb
- sensitive detection
- loop mediated isothermal amplification