Supporting people in their homes is an important issue both for ethical and practical reasons. Indeed, in the recent years, the scientific community devoted particular attention to detecting human falls, since the first cause of death for elderly people is due to the consequences of a fall. In this paper, we propose a human fall classification system based on an innovative floor acoustic sensor able to capture the acoustic waves transmitted through the floor. The algorithm employed is able to discriminate human falls from non falls and it is based on Mel-Frequency Cepstral Coefficients and a two class Support Vector Machine. The dataset employed for performance evaluation is composed by falls of a human mimicking doll, everyday objects and everyday noises. The obtained results show that the proposed solution is suitable for human fall detection in realistic scenarios, allowing to guarantee a 0% miss probability at very low false positive rates.

Human Fall Detection by Using an Innovative Floor Acoustic Sensor / Droghini, D.; Principi, E.; Squartini, S.; Olivetti, P.; Piazza, F. - ELETTRONICO. - 69:(2017), pp. 97-107. [10.1007/978-3-319-56904-8_10]

Human Fall Detection by Using an Innovative Floor Acoustic Sensor

Droghini, D.;Principi, E.;Squartini, S.;Piazza, F
2017-01-01

Abstract

Supporting people in their homes is an important issue both for ethical and practical reasons. Indeed, in the recent years, the scientific community devoted particular attention to detecting human falls, since the first cause of death for elderly people is due to the consequences of a fall. In this paper, we propose a human fall classification system based on an innovative floor acoustic sensor able to capture the acoustic waves transmitted through the floor. The algorithm employed is able to discriminate human falls from non falls and it is based on Mel-Frequency Cepstral Coefficients and a two class Support Vector Machine. The dataset employed for performance evaluation is composed by falls of a human mimicking doll, everyday objects and everyday noises. The obtained results show that the proposed solution is suitable for human fall detection in realistic scenarios, allowing to guarantee a 0% miss probability at very low false positive rates.
2017
Multidisciplinary Approaches to Neural Computing
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11566/241539
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