Multimodal Classification Technique for Fall Detection of Alzheimer’s Patients by Integration of a Novel Piezoelectric Crystal Accelerometer and Aluminum Gyroscope with Vision Data

• Published in: Advances in materials science and engineering Vol. 2022; pp. 1 - 11
• Main Authors: Mohan Gowda, V., Arakeri, Megha P., Raghu Ram Prasad, Vasireddy
• Format: Journal Article
• Language: English
• Published: New York Hindawi 10.10.2022; John Wiley & Sons, Inc; Wiley
• Subjects: Accelerometers; Accuracy; Algorithms; Aluminum; Alzheimer's disease; Atmospheric pressure; Cameras; Caregivers; Classification; Datasets; Decision trees; Deep learning; Dementia; Expert systems; Fall detection; Hybrid systems; Internet of Things; Machine learning; Memory; Neural networks; Occlusion; Older people; Patients; Piezoelectric crystals; Sensors; Smartwatches; Wearable computers
• ISSN: 1687-8434; 1687-8442; 1687-8442
• DOI: 10.1155/2022/9258620

Smart expert systems line up with various applications to enhance the quality of lifestyle of human beings, such as major applications for smart health monitoring systems. An intelligent assistive system is one such application to assist Alzheimer’s patients in carrying out day-to-day activities and real-time monitoring by the caretakers. Fall detection is one of the tasks of an assistive system; many existing methods primarily focus on either vision or sensor data. Vision-based methods suffer from false positive results because of occlusion, and sensor-based methods yield false results because of the patient’s long-term lying posture. We address this problem by proposing a multimodel fall detection system (MMFDS) with hybrid data, which includes both vision and sensor data. Random forest and long-term recurrent convolution networks (LRCN) are the primary classification algorithms for sensor data and vision data, respectively. MMFDS integrates sensor and vision data to enhance fall detection accuracy by incorporating an ensemble approach named majority voting for the hybrid data. On evaluating the proposed work on the UP fall detection dataset, accuracy was enhanced to 99.2%, with an improvement in precision, F1 score, and recall.