Development Of Modular Poultry Cage With Iot-based Monitoring And Controlling System/ John Paolo T. Anda, Mark Vincent B. Bulawan, Lorence A. Ecle, Rianna Corene M. Tan and Ramon Christopher D. Vergara.--

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Anda, John Paolo T [author]

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Material type: Text

TextPublication details: Technological University Of The Philippines, Manila. 2024Description: xi, 138 pages. 29 cmContent type:

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BTH QA 76.9 A53 2024

Dissertation note: College of Industrial Technology.-- Bachelor of Engineering Technology major in Computer Engineering Technology: Technological University Of The Philippines, Manila. 2024 Summary: The researcher's inspiration in conducting this study is the communities having poultry farming that utilizes conventional methods commonly found in non-residential areas. Due to restrictions, visitors are not always permitted to enter because of Biosecurity and restrictions that affect health and productivity. Poultry Farming, especially chickens, can be challenging during the dry season due to unregulated temperature and humidity levels, which results in increased mortality. In order to address this issue, a conducting study was conducted to develop a Modular Poultry Cage with an IoT-Based Monitoring and Controlling System that improves the traditional cages while regulating fans and lights, monitors environmental conditions, and assists with manual labor. The cage has an improved design that enables the poultry owner to assemble and disassemble the parts of the cage. It enhances the portability and its modularity. An IoT mobile application was utilized to control NodeMCU devices through the internet. The NodeMCU ESP32 firmware monitors and manages the temperature, humidity, water level, and lighting. The system also uses a DHT22, a sensor that monitors temperature and humidity inside the chicken house. An ultrasonic sensor reads the feeder and drinker's container level for feed and water. Since environmental parameters are critical, the system is innovative and applicable to agriculture. The ISO/IEC 25010 evaluation tool was used to assess the system's features, such as its functionality, reliability, safety, durability, maintainability, portability, usability, and efficiency. The overall average score obtained was 4.56, which is considered "Very Acceptable" based on the descriptive rating of the Likert scale.

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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 2024 (Browse shelf(Opens below))	c.1.	Not for loan		BTH0004751

Bachelor's thesis

College of Industrial Technology.-- Bachelor of Engineering Technology major in Computer Engineering Technology: Technological University Of The Philippines, Manila. 2024

Includes bibliographic references and index.

The researcher's inspiration in conducting this study is the communities having poultry
farming that utilizes conventional methods commonly found in non-residential areas. Due
to restrictions, visitors are not always permitted to enter because of Biosecurity and
restrictions that affect health and productivity. Poultry Farming, especially chickens, can
be challenging during the dry season due to unregulated temperature and humidity levels,
which results in increased mortality. In order to address this issue, a conducting study was
conducted to develop a Modular Poultry Cage with an IoT-Based Monitoring and
Controlling System that improves the traditional cages while regulating fans and lights,
monitors environmental conditions, and assists with manual labor. The cage has an
improved design that enables the poultry owner to assemble and disassemble the parts of
the cage. It enhances the portability and its modularity. An IoT mobile application was
utilized to control NodeMCU devices through the internet. The NodeMCU ESP32
firmware monitors and manages the temperature, humidity, water level, and lighting. The
system also uses a DHT22, a sensor that monitors temperature and humidity inside the
chicken house. An ultrasonic sensor reads the feeder and drinker's container level for feed
and water. Since environmental parameters are critical, the system is innovative and
applicable to agriculture. The ISO/IEC 25010 evaluation tool was used to assess the
system's features, such as its functionality, reliability, safety, durability, maintainability,
portability, usability, and efficiency. The overall average score obtained was 4.56, which
is considered "Very Acceptable" based on the descriptive rating of the Likert scale.

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