Development of Iot-Based plant surface watering system with automatic handwash station/ Angelica Mae C. Anacion, Danilyn B. Barayoga, Jaden M. Datario, Cyril Mae U. Gravamin, Ken Howell M. Parong and Angel B. Soloya.--

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Anacion, Angelica Mae C [author]

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Material type: Text

TextPublication details: Technological University of the Philippines, Manila. 2025Description: xi, 120 pages. 29cmContent type:

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BTH QA 76.9 A53 2025

Dissertation note: College of Industrial Technology.-- Bachelor of Engineering Technology major in Computer Engineering Technology Technological University of the Philippines, Manila. 2025 Summary: The increasing demand for efficient water management in agriculture and improved hygiene practices highlights the need for innovative solutions that leverage emerging technologies. This study presents the development of an Internet of Things (IoT)-based plant surface watering system integrated with an automatic handwash station. The proposed system addresses two critical issues: optimizing water usage for plant irrigation and promoting hygiene through contactless handwashing. The IoT-based plant watering system employs sensors to monitor soil moisture levels and environmental conditions, ensuring precise water delivery to the plant surface. This reduces water waste while maintaining optimal plant health. The system is equipped with a cloud-based platform that allows users to remotely monitor and control watering schedules via a mobile application. In terms of Functionality, survey results on functionality reveal a high level of satisfaction, with a total mean 4.47% categorized at "VERY ACCEPTABLE”. Majority of the respondents value the system. In Workability, the survey findings on workability indicate a high level of satisfaction, with a total mean of 4.18% classified as "VERY ACCEPTABLE”. Many respondents admire the system. On the other hand, according to the economy survey, most respondents value the system, with a total mean score of 4.10% falling into the " VERY ACCEPTABLE”. category. In Safety, many respondents value the system, as seen by the high degree of satisfaction with safety the results of the survey, with a total mean of 4.09% classified as " VERY ACCEPTABLE”. Lastly in Aesthetic, with a mean score of 4.37%, which falls into the " VERY ACCEPTABLE”. category, most respondents express high levels of pleasure with the system's aesthetics. Keywords: Internet of Things, watering system, handwash station, agriculture

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH QA 76.9 A53 2025 (Browse shelf(Opens below))	c.1	Not for loan		BTH0005898

Bachelor's thesis

College of Industrial Technology.-- Bachelor of Engineering Technology major in Computer Engineering Technology Technological University of the Philippines, Manila. 2025

Includes bibliographic references and index.

The increasing demand for efficient water management in agriculture and improved
hygiene practices highlights the need for innovative solutions that leverage emerging
technologies. This study presents the development of an Internet of Things (IoT)-based
plant surface watering system integrated with an automatic handwash station. The
proposed system addresses two critical issues: optimizing water usage for plant irrigation
and promoting hygiene through contactless handwashing.
The IoT-based plant watering system employs sensors to monitor soil moisture
levels and environmental conditions, ensuring precise water delivery to the plant surface.
This reduces water waste while maintaining optimal plant health. The system is equipped
with a cloud-based platform that allows users to remotely monitor and control watering
schedules via a mobile application.
In terms of Functionality, survey results on functionality reveal a high level of
satisfaction, with a total mean 4.47% categorized at "VERY ACCEPTABLE”. Majority
of the respondents value the system. In Workability, the survey findings on workability
indicate a high level of satisfaction, with a total mean of 4.18% classified as "VERY
ACCEPTABLE”. Many respondents admire the system. On the other hand, according to
the economy survey, most respondents value the system, with a total mean score of 4.10%
falling into the " VERY ACCEPTABLE”. category. In Safety, many respondents value
the system, as seen by the high degree of satisfaction with safety the results of the survey,
with a total mean of 4.09% classified as " VERY ACCEPTABLE”. Lastly in Aesthetic,
with a mean score of 4.37%, which falls into the " VERY ACCEPTABLE”. category, most
respondents express high levels of pleasure with the system's aesthetics.
Keywords: Internet of Things, watering system, handwash station, agriculture

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