Pre-and-post impact fall detection based on support vector machines using inertial and barometric pressure data
| Autor: | Roberth Álvarez-Jiménez, Edith Pulido Herrera, Andrés F. Ruiz-Olaya, Daniel Alfonso Sierra Bueno |
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| Jazyk: | Spanish; Castilian |
| Rok vydání: | 2024 |
| Předmět: | |
| Zdroj: | Tecnura, Vol 28, Iss 79, Pp 34-52 (2024) |
| Druh dokumentu: | article |
| ISSN: | 22487638 0123-921X 2248-7638 |
| DOI: | 10.14483/22487638.22066 |
| Popis: | Objective: This paper presents a novel real-time algorithm for fall detection, which contextualizes falls by identifying activities occurring both pre- and post-impact utilizing machine learning techniques and wearable sensors. Methodology: The activities selected to contextualize fall events included standing, lying, walking, running, climbing stairs, and using the elevator. Data were collected using an inertial measurement unit and a barometric altimeter positioned on the participants’ lower backs. Thirteen healthy subjects were observed performing the activities and fall events were recorded from five healthy subjects. The proposed algorithm combines thresholding and cascade support vector machines (SVMs), whose robustness is enhanced by a verification process of the subject’s posture aimed at determining the occurrence of the fall more accurately. Results: The performance of the algorithm was evaluated in terms of the hit rate (HT) both offline and in real-time. From the activities studied, stairs climbing proved to be the most challenging to detect, with an offline HT of 85 % and an online HT of 76 %. The overall offline performance was superior, with an HT of 96 %, compared to the performance achieved online, an HT of 91 %; in both cases the fall detection HT was 100 %. Conclusions: The algorithm can be used to recognize fall events occurring to any user, as it has the advantage of not needing prior adaptation due to the nonlinear nature of the SVMs. The cascade SVMs allow for using small sets of variables, leading to low computational cost and a suitable real-time implementation. These features, in addition to the posture verification process, make our algorithm suitable for activity recognition in non-laboratory environments. Financing: This research was partly funded by the Colombian Administrative Department of Science, Technology, and Innovation (COLCIENCIAS) and the Universidad Industrial de Santander (UIS), grant FP44842-507-2014, project 1817; and by the Universidad El Bosque under grant PCI2019-10784 |
| Databáze: | Directory of Open Access Journals |
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