Continuous monitoring of flexions of the trunk via wearable sensors could help various types of workers to reduce risks associated with incorrect postures and movements. Stretchable pi-ezo‐capacitive elastomeric sensors based on dielectric elastomers have recently been described as a wearable, lightweight and cost‐effective technology to monitor human kinematics. Their stretching causes an increase of capacitance, which can be related to angular movements. Here, we describe a wearable wireless system to detect flexions of the trunk, based on such sensors. In particular, we present: (i) a comparison of different calibration strategies for the capacitive sensors, using either an accelerometer or a gyroscope as an inclinometer; (ii) a comparison of the capacitive sensors’ performance with those of the accelerometer and gyroscope; to that aim, the three types of sensors were evaluated relative to stereophotogrammetry. Compared to the gyroscope, the capacitive sensors showed a higher accuracy. Compared to the accelerometer, their performance was lower when used as quasi‐static inclinometers but also higher in case of highly dynamic accelerations. This makes the capacitive sensors attractive as a complementary, rather than alternative, technology to inertial sen-sors.

Wearable detection of trunk flexions: Capacitive elastomeric sensors compared to inertial sensors / Frediani G.; Bocchi L.; Vannetti F.; Zonfrillo G.; Carpi F.. - In: SENSORS. - ISSN 1424-8220. - ELETTRONICO. - 21:(2021), pp. 5453-5453. [10.3390/s21165453]

Wearable detection of trunk flexions: Capacitive elastomeric sensors compared to inertial sensors

Frediani G.;Bocchi L.;Vannetti F.;Zonfrillo G.;Carpi F.
2021

Abstract

Continuous monitoring of flexions of the trunk via wearable sensors could help various types of workers to reduce risks associated with incorrect postures and movements. Stretchable pi-ezo‐capacitive elastomeric sensors based on dielectric elastomers have recently been described as a wearable, lightweight and cost‐effective technology to monitor human kinematics. Their stretching causes an increase of capacitance, which can be related to angular movements. Here, we describe a wearable wireless system to detect flexions of the trunk, based on such sensors. In particular, we present: (i) a comparison of different calibration strategies for the capacitive sensors, using either an accelerometer or a gyroscope as an inclinometer; (ii) a comparison of the capacitive sensors’ performance with those of the accelerometer and gyroscope; to that aim, the three types of sensors were evaluated relative to stereophotogrammetry. Compared to the gyroscope, the capacitive sensors showed a higher accuracy. Compared to the accelerometer, their performance was lower when used as quasi‐static inclinometers but also higher in case of highly dynamic accelerations. This makes the capacitive sensors attractive as a complementary, rather than alternative, technology to inertial sen-sors.
2021
21
5453
5453
Frediani G.; Bocchi L.; Vannetti F.; Zonfrillo G.; Carpi F.
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1247892
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