An Open-source Wireless Platform for Real-time Water Quality Monitoring with Precise Global Positioning

Niel F. Salas-Cueva; Jorch Mendoza; Juan Carlos Cutipa-Luque; Pablo Raul Yanyachi

doi:10.14569/IJACSA.2021.0120986

An Open-source Wireless Platform for Real-time Water Quality Monitoring with Precise Global Positioning

Niel F. Salas-Cueva, Jorch Mendoza, Juan Carlos Cutipa-Luque, Pablo Raul Yanyachi

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

Resumen

Sustainable development associated with the agricultural field of Arequipa, a region in economic growth, is vulnerable to contamination of water resources, putting production systems and food security at risk. Therefore, it is necessary to implement an automated system to control, management, and monitor this vital resource. The proposed work proposed a system to measure water quality monitoring in reservoirs and lakes with high accurate related to global positioning. It includes an embedded computer, multiparameter sonde, and an additional dual GNSS/INS in hardware architecture. The software architecture is fully open-source with compatibility, modularity, and interoperability features between Python and MySQL, allowing data management for real-time data in visual interface on a platform that stores unlimited data logging, monitors and analyzes. The proposed system is validated in an experimental test that measures the water quality of a huge agricultural reservoir, where certified instrumentation is mandatory, as compared to other methods used locally for this action.

Idioma original	Inglés
Páginas (desde-hasta)	775-782
Número de páginas	8
Publicación	International Journal of Advanced Computer Science and Applications
Volumen	12
N.º	9
DOI	https://doi.org/10.14569/IJACSA.2021.0120986
Estado	Publicada - 2021

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title = "An Open-source Wireless Platform for Real-time Water Quality Monitoring with Precise Global Positioning",

abstract = "Sustainable development associated with the agricultural field of Arequipa, a region in economic growth, is vulnerable to contamination of water resources, putting production systems and food security at risk. Therefore, it is necessary to implement an automated system to control, management, and monitor this vital resource. The proposed work proposed a system to measure water quality monitoring in reservoirs and lakes with high accurate related to global positioning. It includes an embedded computer, multiparameter sonde, and an additional dual GNSS/INS in hardware architecture. The software architecture is fully open-source with compatibility, modularity, and interoperability features between Python and MySQL, allowing data management for real-time data in visual interface on a platform that stores unlimited data logging, monitors and analyzes. The proposed system is validated in an experimental test that measures the water quality of a huge agricultural reservoir, where certified instrumentation is mandatory, as compared to other methods used locally for this action.",

keywords = "dual Global Navigation Satellite System (GNSS), Inertial Navigation System (INS), multiparameter sonde, MySQL, Open-source, python, real-time, visual interface, water quality monitoring",

author = "Salas-Cueva, {Niel F.} and Jorch Mendoza and Cutipa-Luque, {Juan Carlos} and Yanyachi, {Pablo Raul}",

year = "2021",

doi = "10.14569/IJACSA.2021.0120986",

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volume = "12",

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journal = "International Journal of Advanced Computer Science and Applications",

issn = "2158-107X",

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An Open-source Wireless Platform for Real-time Water Quality Monitoring with Precise Global Positioning. / Salas-Cueva, Niel F.; Mendoza, Jorch; Cutipa-Luque, Juan Carlos et al.
En: International Journal of Advanced Computer Science and Applications, Vol. 12, N.º 9, 2021, p. 775-782.

Resultado de la investigación: Contribución a una revista › Artículo › revisión exhaustiva

TY - JOUR

T1 - An Open-source Wireless Platform for Real-time Water Quality Monitoring with Precise Global Positioning

AU - Salas-Cueva, Niel F.

AU - Mendoza, Jorch

AU - Cutipa-Luque, Juan Carlos

AU - Yanyachi, Pablo Raul

PY - 2021

Y1 - 2021

N2 - Sustainable development associated with the agricultural field of Arequipa, a region in economic growth, is vulnerable to contamination of water resources, putting production systems and food security at risk. Therefore, it is necessary to implement an automated system to control, management, and monitor this vital resource. The proposed work proposed a system to measure water quality monitoring in reservoirs and lakes with high accurate related to global positioning. It includes an embedded computer, multiparameter sonde, and an additional dual GNSS/INS in hardware architecture. The software architecture is fully open-source with compatibility, modularity, and interoperability features between Python and MySQL, allowing data management for real-time data in visual interface on a platform that stores unlimited data logging, monitors and analyzes. The proposed system is validated in an experimental test that measures the water quality of a huge agricultural reservoir, where certified instrumentation is mandatory, as compared to other methods used locally for this action.

AB - Sustainable development associated with the agricultural field of Arequipa, a region in economic growth, is vulnerable to contamination of water resources, putting production systems and food security at risk. Therefore, it is necessary to implement an automated system to control, management, and monitor this vital resource. The proposed work proposed a system to measure water quality monitoring in reservoirs and lakes with high accurate related to global positioning. It includes an embedded computer, multiparameter sonde, and an additional dual GNSS/INS in hardware architecture. The software architecture is fully open-source with compatibility, modularity, and interoperability features between Python and MySQL, allowing data management for real-time data in visual interface on a platform that stores unlimited data logging, monitors and analyzes. The proposed system is validated in an experimental test that measures the water quality of a huge agricultural reservoir, where certified instrumentation is mandatory, as compared to other methods used locally for this action.

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KW - Inertial Navigation System (INS)

KW - multiparameter sonde

KW - MySQL

KW - Open-source

KW - python

KW - real-time

KW - visual interface

KW - water quality monitoring

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DO - 10.14569/IJACSA.2021.0120986

M3 - Artículo

AN - SCOPUS:85119441089

SN - 2158-107X

VL - 12

SP - 775

EP - 782

JO - International Journal of Advanced Computer Science and Applications

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ER -

An Open-source Wireless Platform for Real-time Water Quality Monitoring with Precise Global Positioning

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