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Human fall detection using pose estimation: From traditional machine learning to vision transformers

Ali Raza, Muhammad Haroon Yousaf, Waqar Ahmad, Sergio A. Velastín, Serestina Viriri

2025Engineering Applications of Artificial Intelligence18 citationsDOIOpen Access PDF

Abstract

Human activity recognition research for healthcare has drawn global attention in recent era. Recent advancements have led to various approaches capable of detecting diverse movements like walking, running, jumping, and falling. Fall detection is crucial due to its potential fatality, especially for older individuals. Sensors are widely employed to perceive environmental changes, and they can be integrated into wearable devices like phones, necklaces, or wristbands. However, these devices may be uncomfortable or unsuitable for continuous use. Video imagery, in principle, surpasses wearable sensors for fall detection. The proposed method uses video frames to identify falls, reducing the need for environmental sensors. We present an empirical analysis of vision-based human fall detection, employing multiple techniques to estimate human poses including a transformer-based pose estimation technique. These techniques yield foundational features used for training diverse networks, including machine learning classifiers to vision transformers. Our methodology achieves cutting-edge outcomes across the UR-Fall, UP-Fall, and Le2i fall detection datasets.

Topics & Concepts

Computer scienceArtificial intelligenceTransformerPoseComputer visionMachine learningMachine visionElectrical engineeringVoltageEngineeringContext-Aware Activity Recognition SystemsHuman Pose and Action RecognitionGait Recognition and Analysis