Archivio Istituzionale della RicercaNowadays, wearable devices are largely spread in many fields and in wellness monitoring too. In this paper we propose a smartwatch-based IoT system to improve the monitoring efficacy of critical hospitalized patients. The medical doctor assigned to the unit can access patients' information at any time and from any place by wearing a smartwatch. The bio-sensing platforms, which measure metabolites' concentration in the patients, are wirelessly connected with a dedicated application running on the smartwatch. In case of anomalous measured values, incoming alert notifications are received to ask urgent medical intervention. In this way, the doctor, or in general the caregiver, can freely move in the hospital areas and perform several tasks in parallel without losing the monitoring of the patients under their responsibility.
Live demonstration: An IoT smartwatch-based system for intensive care monitoring / Stradolini, F.; Lavalle, E.; Ros, P. M.; De Micheli, G.; Demarchi, D.; Carrara, S.. - ELETTRONICO. - 2018:(2018), pp. 1-1. (Intervento presentato al convegno 2017 IEEE Biomedical Circuits and Systems Conference, BioCAS 2017 tenutosi a Turin, Italy nel 19-21 October 2017) [10.1109/BIOCAS.2017.8325090].
Live demonstration: An IoT smartwatch-based system for intensive care monitoring
Ros P. M.;Demarchi D.;
2018
Abstract
Nowadays, wearable devices are largely spread in many fields and in wellness monitoring too. In this paper we propose a smartwatch-based IoT system to improve the monitoring efficacy of critical hospitalized patients. The medical doctor assigned to the unit can access patients' information at any time and from any place by wearing a smartwatch. The bio-sensing platforms, which measure metabolites' concentration in the patients, are wirelessly connected with a dedicated application running on the smartwatch. In case of anomalous measured values, incoming alert notifications are received to ask urgent medical intervention. In this way, the doctor, or in general the caregiver, can freely move in the hospital areas and perform several tasks in parallel without losing the monitoring of the patients under their responsibility.
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Descrizione: Stradolini BioCAS17
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https://hdl.handle.net/11583/2782296