The EcoChip : a wireless multi-sensor platform for comprehensive environmental monitoring

This paper presents the EcoChip, a new system based on state-of-the-art electro-chemical impedance (EIS) technologies allowing the growth of single strain organisms isolated from northern habitats. This portable system is a complete and autonomous wireless platform designed to monitor and cultivate...

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Bibliographic Details
Published in:IEEE Transactions on Biomedical Circuits and Systems
Main Authors: Tremblay, Denise, Gosselin, Benoit, Morency, Steeve, Faucher, Félix, Sarrazin, Denis, Moineau, Sylvain, Corbeil, Jacques, Sylvain, Matthieu, Messaddeq, Younès, Allard, Michel, Lehoux, Francis, Bharucha, Eric, Raymond, Frédéric
Format: Other/Unknown Material
Language:English
Published: IEEE 2020
Subjects:
Electrochemical impedance spectroscopy
Embedded system
Microorganisms
Bacteria
Environmental monitoring
Climate changes
DNA sequencing
Spectroscopie d'impédance
Micro-organismes
Environnement > Surveillance > Appareils et matériel
Systèmes enfouis (Informatique)
Bactéries
Kuujjuarapik
Puvirnituq
Online Access:https://hdl.handle.net/20.500.11794/38905
https://doi.org/10.1109/TBCAS.2018.2878404
Description
Summary:This paper presents the EcoChip, a new system based on state-of-the-art electro-chemical impedance (EIS) technologies allowing the growth of single strain organisms isolated from northern habitats. This portable system is a complete and autonomous wireless platform designed to monitor and cultivate microorganisms directly sampled from their natural environment, particularly from harsh northern environments. Using 96-well plates, the EcoChip can be used in the field for realtime monitoring of bacterial growth. Manufactured with highquality electronic components, this new EIS monitoring system is designed to function at a low excitation voltage signal to avoid damaging the cultured cells. The high-precision calibration network leads to high-precision results, even in the most limiting contexts. Luminosity, humidity and temperature can also be monitored with the addition of appropriate sensors. Access to robust data storage systems and power supplies is an obvious limitation for northern research. That is why the EcoChip is equipped with a flash memory that can store data over long periods of time. To resolve the power issue, a low-power microcontroller and a power management unit control and supply all electronic building blocks. Data stored in the EcoChip’s flash memory can be transmitted through a transceiver whenever a receiver is located within the functional transmission range. In this paper, we present the measured performance of the system, along with results from laboratory tests in-vitro and from two field tests. The EcoChip has been utilized to collect bio-environemental data in the field from the northern soils and ecosystems of Kuujjuarapik and Puvirnituq, during two expeditions, in 2017 and 2018, respectively. We show that the EcoChip can effectively carry out EIS analyses over an excitation frequency ranging from 750 Hz to 10 kHz with an accuracy of 2.35%. The overall power consumption of the system was 140.4 mW in normal operating mode and 81 µW in sleep mode. The proper development of the isolated ...

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