Elise Saoutieff, Tiziana Polichetti, Laurent Jouanet, Adrien Faucon, Audrey Vidal, Alexandre Pereira, Sébastien Boisseau, Thomas Ernst, Maria Lucia Miglietta, Brigida Alfano, Ettore Massera, Saverio De Vito, Do Hanh Ngan Bui, Philippe Benech, Tan-Phu Vuong, Carmen Moldovan, Yann Danlee, Thomas Walewyns, Sylvain Petre, Denis Flandre, Armands Ancans, Modris Greitans, Adrian M. Ionescu. A Wearable Low-Power Sensing Platform for Environmental and Health Monitoring: The Convergence Project. Sensors, 21(5), 1802 pp. 2021.

Bibtex citāts:
author = {Elise Saoutieff and Tiziana Polichetti and Laurent Jouanet and Adrien Faucon and Audrey Vidal and Alexandre Pereira and Sébastien Boisseau and Thomas Ernst and Maria Lucia Miglietta and Brigida Alfano and Ettore Massera and Saverio De Vito and Do Hanh Ngan Bui and Philippe Benech and Tan-Phu Vuong and Carmen Moldovan and Yann Danlee and Thomas Walewyns and Sylvain Petre and Denis Flandre and Armands Ancans and Modris Greitans and Adrian M. Ionescu},
title = {A Wearable Low-Power Sensing Platform for Environmental and Health Monitoring: The Convergence Project},
journal = {Sensors},
volume = {21},
issue = {5},
pages = {1802},
year = {2021}

Anotācija: The low-power sensing platform proposed by the Convergence project is foreseen as a wireless, low-power and multifunctional wearable system empowered by energy-efficient technologies. This will allow meeting the strict demands of life-style and healthcare applications in terms of autonomy for quasi-continuous collection of data for early-detection strategies. The system is compatible with different kinds of sensors, able to monitor not only health indicators of individual person (physical activity, core body temperature and biomarkers) but also the environment with chemical composition of the ambient air (NOx, COx, NHx particles) returning meaningful information on his/her exposure to dangerous (safety) or pollutant agents. In this article, we introduce the specifications and the design of the low-power sensing platform and the different sensors developed in the project, with a particular focus on pollutant sensing capabilities and specifically on NO2 sensor based on graphene and CO sensor based on polyaniline ink.

URL: https://doi.org/10.3390/s21051802

Pilnais teksts: sensors-21-01802

Scopus meklēšana