Abstract
Falls are very dangerous events among elderly people. Several automatic fall detectors have been developed to reduce the time of the medical intervention, but they cannot avoid the injures due to the fall. The purpose of this study has been to identify a computational framework for the real-time and automatic detection of the fall risk, allowing the fast adoption of properly intervention strategies, to reduce injuries and traumas due to falls. A wearable, wireless and minimally invasive surface Electromyography (EMG)-based system has been used to measure four lower-limb muscles activities. Eleven young healthy subjects have simulated several fall events (through a movable platform) and normal Activities of Daily Living (ADLs) and their patterns have been analyzed. Highly discriminative features extracted within the EMG signals for the pre impact fall evaluation have been explored and a threshold-based approach has been adopted, assuring the real-time functioning. The threshold level for each feature has been set to distinguish an instability condition from normal activities. The proposed system seems able to recognize all falls with an average lead-time of 840 ms before the impact, in simulated and controlled fall conditions.
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Acknowledgements
This work has been carried out within ActiveAging@Home PON Project founded by the Italian Minister of Research, University and Educational. Authors would like to thank the colleague Mr. Flavio Casino for the technical support.
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Rescio, G., Leone, A., Caroppo, A., Siciliano, P. (2017). Fall Risk Evaluation by Electromyography Solutions. In: Cavallo, F., Marletta, V., Monteriù, A., Siciliano, P. (eds) Ambient Assisted Living. ForItAAL 2016. Lecture Notes in Electrical Engineering, vol 426. Springer, Cham. https://doi.org/10.1007/978-3-319-54283-6_21
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DOI: https://doi.org/10.1007/978-3-319-54283-6_21
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