Authors :
test
Volume/Issue :
Volume 8 - 2023, Issue 2 - February
Google Scholar :
https://bit.ly/3IIfn9N
Scribd :
https://bit.ly/3k4MNJx
DOI :
https://doi.org/10.5281/zenodo.7654726
Abstract :
As indoor air pollution and poor sanitation
remain a public concern worldwide, the main objective of
this study was to create a contactless sanitation system out
of Arduino interface and ion generators. For the purpose
of detecting air pollutants, Arduino interface, an open-
source electronics platform based on simple hardware and
software, was used in the air quality indicator. Ion
generators, which release negative ions, were used to make
the air purifier improve indoor air quality by removing
small particles from the air. To trigger the disinfecting
machine, a sensor was used for automatic activation. Thus,
the system had three main components. The results of the
study proved the effectiveness of the air quality indicator
in terms of accuracy and real-time speed, the effectiveness
of the voice-activated air purifier in terms of response time
and the number of negative ions produced on a quarter-
hourly basis, and the swiftness of the sensor of the
disinfecting machine in terms of detection time.
Keywords :
Air Purifier; Air Quality Indicator; Arduino Interface; Disinfecting Machine; Indoor Air Pollution; Ion Generators.
As indoor air pollution and poor sanitation
remain a public concern worldwide, the main objective of
this study was to create a contactless sanitation system out
of Arduino interface and ion generators. For the purpose
of detecting air pollutants, Arduino interface, an open-
source electronics platform based on simple hardware and
software, was used in the air quality indicator. Ion
generators, which release negative ions, were used to make
the air purifier improve indoor air quality by removing
small particles from the air. To trigger the disinfecting
machine, a sensor was used for automatic activation. Thus,
the system had three main components. The results of the
study proved the effectiveness of the air quality indicator
in terms of accuracy and real-time speed, the effectiveness
of the voice-activated air purifier in terms of response time
and the number of negative ions produced on a quarter-
hourly basis, and the swiftness of the sensor of the
disinfecting machine in terms of detection time.
Keywords :
Air Purifier; Air Quality Indicator; Arduino Interface; Disinfecting Machine; Indoor Air Pollution; Ion Generators.