A Hybrid Human Activity Recognition Method Using an MLP Neural Network and Euler Angle Extraction Based on IMU Sensors

Abstract: Inertial measurement unit (IMU) technology has gained popularity in human activity recognition (HAR) due to its ability to identify human activity by measuring acceleration, angular velocity, and magnetic flux in key body areas like the wrist and knee. It has propelled the extensive application of HAR across various domains. In the healthcare sector, HAR finds utility in monitoring and assessing movements during rehabilitation processes, while in the sports science field, it contributes to enhancing training o… Show more

“…This advantage allows for the collection of data directly at the angle when the wrist angle is three-dimensionally fixed or obtained as a virtual result through a regression equation. However, to prevent overfitting, a considerable amount of data and GPU devices for accelerating complex computations are required [ 31 ]. Deep learning is increasingly employed in extracting and classifying features of complex human activities from mobile and wearable sensors.…”

Measurement of 3D Wrist Angles by Combining Textile Stretch Sensors and AI Algorithm

“…This advantage allows for the collection of data directly at the angle when the wrist angle is three-dimensionally fixed or obtained as a virtual result through a regression equation. However, to prevent overfitting, a considerable amount of data and GPU devices for accelerating complex computations are required [ 31 ]. Deep learning is increasingly employed in extracting and classifying features of complex human activities from mobile and wearable sensors.…”

Measurement of 3D Wrist Angles by Combining Textile Stretch Sensors and AI Algorithm

Fish feeding behavior recognition using time-domain and frequency-domain signals fusion from six-axis inertial sensors

Transportation mode detection through spatial attention-based transductive long short-term memory and off-policy feature selection