DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS
FKGG (Forum Komunikasi Gunung Geulis) is a model farming and gardening community located in Jatiroke, Jatinangor. This community features two different types of gardens: a conventional garden using soil as the growing medium and a hydroponic garden using water as the growing medium. Two years ago...
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id-itb.:822652024-07-07T04:25:11ZDESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS Aryo Prakoso, Gotawa Indonesia Final Project Automation, Agriculture, Irrigation, Hydroponic. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/82265 FKGG (Forum Komunikasi Gunung Geulis) is a model farming and gardening community located in Jatiroke, Jatinangor. This community features two different types of gardens: a conventional garden using soil as the growing medium and a hydroponic garden using water as the growing medium. Two years ago, the farmers at FKGG manually maintained and monitored the gardens, requiring significant labor. Last year, developers from SCCIC and STI ITB conducted community service to assist FKGG farmers by creating an Internet of Things (IoT) based system for garden maintenance and monitoring. However, upon review, the installed tools were not fully optimal. There were several aspects that could be improved, such as the microcontroller restarting every time the pump was turned on, dependency on internet connection, and the absence of on-site control mechanisms. Therefore, further development of the existing system was undertaken to enhance system reliability and reduce dependency on internet connection. This report details the design and implementation of hardware for automation in conventional and hydroponic farming. The implemented hardware is characterized by safety, reliability, and versatility, as it can function well in various situations for both conventional and hydroponic farming systems. This hardware also has built-in redundancy and fail-safe mechanisms for unexpected events. For the conventional farming system, the hardware is designed to control water pumps and solenoid valves for scheduled irrigation purposes. Additionally, this hardware can read environmental data, such as soil moisture, water availability, and water flow. For the hydroponic farming system, the hardware is mainly designed to control water pumps and peristaltic pumps for automatic dosing purposes. Additionally, this hardware can read environmental data such as pH levels, ppm levels, and nutrient solution availability. After thorough testing, all hardware subsystems have functioned well. The successfully tested subsystems include (1) the power management unit, (2) sensor interface, (3) actuator interface, (4) human-machine interface, (5) main controller and supporting components, and (6) wireless transceiver. text |
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Indonesia Indonesia |
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Indonesia |
| description |
FKGG (Forum Komunikasi Gunung Geulis) is a model farming and gardening community
located in Jatiroke, Jatinangor. This community features two different types of gardens: a
conventional garden using soil as the growing medium and a hydroponic garden using water
as the growing medium. Two years ago, the farmers at FKGG manually maintained and
monitored the gardens, requiring significant labor. Last year, developers from SCCIC and STI
ITB conducted community service to assist FKGG farmers by creating an Internet of Things
(IoT) based system for garden maintenance and monitoring. However, upon review, the
installed tools were not fully optimal. There were several aspects that could be improved, such
as the microcontroller restarting every time the pump was turned on, dependency on internet
connection, and the absence of on-site control mechanisms. Therefore, further development of
the existing system was undertaken to enhance system reliability and reduce dependency on
internet connection. This report details the design and implementation of hardware for
automation in conventional and hydroponic farming. The implemented hardware is
characterized by safety, reliability, and versatility, as it can function well in various situations
for both conventional and hydroponic farming systems. This hardware also has built-in
redundancy and fail-safe mechanisms for unexpected events. For the conventional farming
system, the hardware is designed to control water pumps and solenoid valves for scheduled
irrigation purposes. Additionally, this hardware can read environmental data, such as soil
moisture, water availability, and water flow. For the hydroponic farming system, the hardware
is mainly designed to control water pumps and peristaltic pumps for automatic dosing
purposes. Additionally, this hardware can read environmental data such as pH levels, ppm
levels, and nutrient solution availability. After thorough testing, all hardware subsystems have
functioned well. The successfully tested subsystems include (1) the power management unit,
(2) sensor interface, (3) actuator interface, (4) human-machine interface, (5) main controller
and supporting components, and (6) wireless transceiver. |
| format |
Final Project |
| author |
Aryo Prakoso, Gotawa |
| spellingShingle |
Aryo Prakoso, Gotawa DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS |
| author_facet |
Aryo Prakoso, Gotawa |
| author_sort |
Aryo Prakoso, Gotawa |
| title |
DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS |
| title_short |
DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS |
| title_full |
DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS |
| title_fullStr |
DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS |
| title_full_unstemmed |
DESIGN AND IMPLEMENTATION OF HARDWARE SYSTEM FOR GARDEN MONITORING AND MAINTENANCE BASED ON THE INTERNET OF THINGS |
| title_sort |
design and implementation of hardware system for garden monitoring and maintenance based on the internet of things |
| url |
https://digilib.itb.ac.id/gdl/view/82265 |
| _version_ |
1822997623753146368 |