Your search keyword '"Luca Palmerini"' showing total 2 results

1. Machine Learning Based Fall Detector With a Sensorized Tip

Author

Asier Brull Mesanza, Ilaria D'Ascanio, Asier Zubizarreta, Luca Palmerini, Lorenzo Chiari, and Itziar Cabanes

Subjects

Machine learning, support vector machine, random forest, fall detection, wearable sensors, instrumented crutch, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Fall detection has become an area of interest in recent years, as quick response to these events is critical to reduce the morbidity and mortality rate. In order to ensure proper fall detection, several technologies have been developed, including vision system, environmental detection systems, and wearable sensor based systems. However, in elderly or impaired people, it has been shown that the implementation of sensors in Assistive Devices for Walking, such as crutches or canes, can also be a promising alternative. In this work, a Support Vector Machine (SVM) based Fall Detection system is proposed, which uses the data provided by a Sensorized Tip which can be attached to different Assistive Devices for Walking (ADW). Unlike other approaches, the developed one is able to differentiate the fall of the ADW from the fall of the user. For that purpose, the developed Fall Detector uses two modules connected in series. The first one detects all falls, while the second differentiates between user and ADW falls. The proposed approach is validated in a set of experimental tests carried out by healthy volunteers that have simulated different falls. In addition, a comparative analysis is carried out by comparing the performance of the Sensorized Tip based Fall Detector and a state-of-the-art commercial accelerometer system. Results demonstrate that the proposed approach provides high Fall Detection Ratios (over 90%), similar or higher to wearable-sensor based approaches.

Published

2021

2. Physical activity classification using body-worn inertial sensors in a multi-sensor setup

Author

Luca Palmerini, Muhammad Awais, Lorenzo Chiari, Awais, Muhammad, Palmerini, Luca, and Chiari, Lorenzo

Subjects

Engineering, Activities of daily living, Daily Life Activitie, 0206 medical engineering, Feature extraction, Biomedical Engineering, Energy Engineering and Power Technology, Human Factors and Ergonomics, Inertial Sensor, 02 engineering and technology, Accelerometer, computer.software_genre, law.invention, law, Inertial measurement unit, 0202 electrical engineering, electronic engineering, information engineering, Computer vision, Sensitivity (control systems), Instrumentation, Physical Activity Classification, business.industry, Computer Science Applications1707 Computer Vision and Pattern Recognition, Gyroscope, 020601 biomedical engineering, Statistical classification, Computer Networks and Communication, ComputingMethodologies_PATTERNRECOGNITION, Pattern recognition (psychology), 020201 artificial intelligence & image processing, Artificial intelligence, Data mining, business, computer

Abstract

Physical inactivity significantly impacts personal health, reduces quality of life, and often leads to mobility disorders, diabetes, and cardiovascular disease. Monitoring daily life activities by means of wearable inertial sensors can provide valuable feedback necessary to improve the quality of daily life and prevent the development of mobility disorders caused by physical inactivity. In this study, a physical activity classification (PAC) algorithm was developed and tested using an inertial sensor-based dataset. The dataset was acquired from multiple inertial sensors, each mounted at a different body location, and consists of various Activities of Daily Living (ADL). Data from nineteen healthy young subjects were analyzed. Time- and frequency-domain features from raw 3D accelerometer and 3D gyroscope signals were computed by performing windowing of the time series data. The K-nearest neighbors (KNN) pattern recognition algorithm was used to classify thirteen different ADLs and was evaluated by a 10-fold cross-validation. The proposed PAC algorithm outperformed the existing algorithm validated using the same dataset, with an overall mean classification rate (sensitivity) of 97.38%. This paper discusses the limitations of this study and proposes ways to overcome said limitations in order to make the PAC algorithm more effective in real-life conditions.

Published

2016