Smart Devices Based Multisensory Approach for Complex Human Activity Recognition

Muhammad Atif Hanif, Tallha Akram, Aamir Shahzad, Muhammad Attique Khan, Usman Tariq, Jung-In Choi, Yunyoung Nam, Zanib Zulfiqar
2022 Computers Materials & Continua  
Sensors based Human Activity Recognition (HAR) have numerous applications in eHeath, sports, fitness assessments, ambient assisted living (AAL), human-computer interaction and many more. The human physical activity can be monitored by using wearable sensors or external devices. The usage of external devices has disadvantages in terms of cost, hardware installation, storage, computational time and lighting conditions dependencies. Therefore, most of the researchers used smart devices like smart
more » ... hones, smart bands and watches which contain various sensors like accelerometer, gyroscope, GPS etc., and adequate processing capabilities. For the task of recognition, human activities can be broadly categorized as basic and complex human activities. Recognition of complex activities have received very less attention of researchers due to difficulty of problem by using either smart phones or smart watches. Other reasons include lack of sensor-based labeled dataset having several complex human daily life activities. Some of the researchers have worked on the smart phone's inertial sensors to perform human activity recognition, whereas a few of them used both pocket and wrist positions. In this research, we have proposed a novel framework which is capable to recognize both basic and complex human activities using builtin-sensors of smart phone and smart watch. We have considered 25 physical activities, including 20 complex ones, using smart device's built-in sensors. To the best of our knowledge, the existing literature consider only up to 15 activities of daily life.
doi:10.32604/cmc.2022.019815 fatcat:evjurqnqhbdjpoqauaq4oe5bjq