Litcius/Paper detail

A Comparison of Machine Learning Algorithms for Fall Detection using Wearable Sensors

Nicolas Zurbuchen, Pascal Bruegger, Adriana Wilde

202033 citationsDOI

Abstract

The proportion of people 60 years old and above is expected to double globally to reach 22 % by 2050. This creates societal challenges such as the increase of age-related illnesses and the need for caregivers. Falls are a major threat for the elderly, often causing serious injuries especially when the fallen person stays on the ground for a long time without assistance. This paper presents the development of a Fall Detection System (FDS) using an accelerometer combined with a gyroscope worn at the waist. Data come from SisFall, a publicly available dataset containing records of Activities of Daily Living and falls. We compared five Machine Learning algorithms. We first applied preprocessing and a feature extraction stage before using five Machine Learning algorithms, allowing us to compare them. Ensemble learning algorithms such as Random Forest and Gradient Boosting have the best performance, with a Sensitivity and Specificity both close to 99%.

Topics & Concepts

Random forestMachine learningAccelerometerComputer scienceWearable computerArtificial intelligenceGradient boostingAlgorithmPreprocessorFeature extractionGyroscopeStatistical classificationEnsemble learningData pre-processingEngineeringEmbedded systemOperating systemAerospace engineeringContext-Aware Activity Recognition SystemsNon-Invasive Vital Sign MonitoringAnomaly Detection Techniques and Applications