| Ramón Chávez-Bracamontes | Instituto Tecnológico de Ciudad Guzmán |
| Fernando Mancilla-Peña | Instituto Tecnológico de Ciudad Guzmán |
| Samuel Sepulveda-Rubio | Instituto Tecnológico de Ciudad Guzmán |
| Cynthia Mejía-Cárdenas | Instituto Tecnológico de Ciudad Guzmán |
https://doi.org/10.58571/CNCA.AMCA.2023.104
Resumen: This article presents the development of a wireless sensing and control system for indoor air quality by measuring gases such as carbon dioxide, as well as the use of ozone as a biocide agent for environmental control in real time, respecting concentrations allowed by national and international environmental health standards. The developed system uses cutting edge technology such as the Internet of Things and Cloud Computing that allows remote access to air quality measurements through mobile devices with the installation of the developed App, which has the capacity for registration and controlled access to users, auto-configuration of devices and data visualization in real time and historical record. The use of ozone as a biocide agent for environmental control was effective against the use of chemicals or other substances since it does not leave hazardous residues, inhibiting the generation of new colonies and keeping the areas under a disinfection control.
¿Cómo citar?
Chávez-Bracamontes, Ramón; Mancilla Peña, Fernando; Mejía Cárdenas, Cynthia Yvonne; Sepúlveda Rubio, Samuel Alejandro. Wireless CO2 and ozone monitoring with IoT technology for indoor air quality. Memorias del Congreso Nacional de Control Automático, pp. 525-530, 2023. https://doi.org/10.58571/CNCA.AMCA.2023.104
Palabras clave
Otros Tópicos Afines; Control Clásico; Sincronización de Sistemas
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