|
Título:
|
Application of an Array of Metal-Oxide Semiconductor Gas Sensors in an Assistant Personal Robot for Early Gas Leak Detection
|
|
Autor/a:
|
Palacín Roca, Jordi; Martínez, David; Clotet Bellmunt, Eduard; Pallejà Cabrè, Tomàs; Burgués, Javier; Fonollosa, Jordi; Pardo, Antonio; Marco, Santiago
|
|
Notas:
|
This paper proposes the application of a low-cost gas sensor array in an assistant personal
robot (APR) in order to extend the capabilities of the mobile robot as an early gas leak detector for
safety purposes. The gas sensor array is composed of 16 low-cost metal-oxide (MOX) gas sensors,
which are continuously in operation. The mobile robot was modified to keep the gas sensor array
always switched on, even in the case of battery recharge. The gas sensor array provides 16 individual
gas measurements and one output that is a cumulative summary of all measurements, used as an
overall indicator of a gas concentration change. The results of preliminary experiments were used to
train a partial least squares discriminant analysis (PLS-DA) classifier with air, ethanol, and acetone as
output classes. Then, the mobile robot gas leak detection capabilities were experimentally evaluated
in a public facility, by forcing the evaporation of (1) ethanol, (2) acetone, and (3) ethanol and acetone
at different locations. The positive results obtained in different operation conditions over the course
of one month confirmed the early detection capabilities of the proposed mobile system. For example,
the APR was able to detect a gas leak produced inside a closed room from the external corridor due
to small leakages under the door induced by the forced ventilation system of the building
This work was partially funded by the Spanish MINECO program, under grants DPI2017-89827-R (ALPE), BES-2015-071698 (Severo-Ochoa), and TEC2014-59229-R (SIGVOL), and by the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation program (grant agreement n ◦ H2020-780262-SHARE4RARE). This work received support from the Departament d’Universitats, Recerca i Societat de la Informació de la Generalitat de Catalunya (expedients 2017 SGR 1721 and 2017 SGR 952) and the Networking Biomedical Research Center in the subject of area of Bioengineering, Biomaterials, and Nanomedicine (CIBER-BBN). This work was partially funded by ACCIÓ, Agència per la Competitivitat de l’Empresa, under grant INNOTECRD18-1-0054 Innotec. J.F. acknowledges the support from the Serra Húnter program. |
|
Materia(s):
|
-Metal-oxide semiconductor
-Gas sensor |
|
Derechos:
|
cc-by (c) Palacín et al., 2019
http://creativecommons.org/licenses/by/4.0/
|
|
Tipo de documento:
|
Artículo
Artículo - Versión publicada |
|
Editor:
|
Molecular Diversity Preservation International (MDPI)
|
|
Compartir:
|
|
