GSM- Based Automatic Plant Irrigation System Using Arduino Uno With Tank Level Monitoring
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Thesis
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Category
Thesis-BSIT
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Publication Year
2024
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xviii, 60p.
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Abstract
DALIT, CHRISTIAN E., DELA CRUZ, JAYMAR T., MANANQUIL, RANNIE A. GSM
Based Automatic Plant Irrigation System Using Arduino Uno with Tank Level
Monitoring. Undergraduate Capstone Project. Bachelor of Science in Information
Technology. Cavite State University, Bacoor Campus, Bacoor City, Cavite. January
2024. Adviser: Ms. Donnalyn B. Montallana.
GSM Based Automatic Irrigation System using Arduino with Tank Level
Monitoring can help solve manual irrigation and provide more consistent and efficient
crop water management. The Farmer of Molino IV, Soldiers Hill, Bacoor, Cavite, can
automate watering the plants, saving time and effort while ensuring that the plants are
adequately watered. With the addition of tank water level monitoring, the system can alert
users to low water levels.
Mr. Romeo Rodriguez's vegetable farm has manual irrigation based on the data
gathered. Manual irrigation can cause problems such as spending long hours watering
plants, water logging, and lack of irrigation equipment.
The study was conducted from January 2023 to January 2024 at Soldiers Hills
4 phase 4, Molino 1, Bacoor City, Cavite. The study aimed (1) To identify and clearly define
the specific problem or need that this project is intended to solve; (2) To analyze the
current situation, user requirements, potential risks, and feasibility of the project;
(3) To design a system using the Modified Waterfall Model; (4)To develop the system that
will automatically switch ON or OFF the water pump using GSM module when power is
given to watering the plant; (5) To evaluate the performance of the system using ISO
25010.
For this project, the researchers developed a system using Arduino Uno, and
the programming language that it uses is C programming in Arduino IDE 20.0 version.
Researchers will use the Modified Waterfall Methodology, a classical proposed system
model. The researchers will test the system by using Alpha Testing on the owner of the
vegetable farm, the respondents, the other farmers, and the IT Professionals by using
Beta Testing.
Based on the Alpha and Beta testing, the system's beneficiaries agreed that
our system is highly recommended, mostly for the manual system, as they have.
Researchers also used ISO 25010 to evaluate the system's performance. This could
include testing the system and making improvements to the system.
The results yield a 4.69 mean rating to the client/owner, 4.74 to the other farmers,
and 4.46 to the IT Professionals. This proves that the system's performance will satisfy
the owner's need to operate the system.
The use of soil sensors is hereby recommended.
Based Automatic Plant Irrigation System Using Arduino Uno with Tank Level
Monitoring. Undergraduate Capstone Project. Bachelor of Science in Information
Technology. Cavite State University, Bacoor Campus, Bacoor City, Cavite. January
2024. Adviser: Ms. Donnalyn B. Montallana.
GSM Based Automatic Irrigation System using Arduino with Tank Level
Monitoring can help solve manual irrigation and provide more consistent and efficient
crop water management. The Farmer of Molino IV, Soldiers Hill, Bacoor, Cavite, can
automate watering the plants, saving time and effort while ensuring that the plants are
adequately watered. With the addition of tank water level monitoring, the system can alert
users to low water levels.
Mr. Romeo Rodriguez's vegetable farm has manual irrigation based on the data
gathered. Manual irrigation can cause problems such as spending long hours watering
plants, water logging, and lack of irrigation equipment.
The study was conducted from January 2023 to January 2024 at Soldiers Hills
4 phase 4, Molino 1, Bacoor City, Cavite. The study aimed (1) To identify and clearly define
the specific problem or need that this project is intended to solve; (2) To analyze the
current situation, user requirements, potential risks, and feasibility of the project;
(3) To design a system using the Modified Waterfall Model; (4)To develop the system that
will automatically switch ON or OFF the water pump using GSM module when power is
given to watering the plant; (5) To evaluate the performance of the system using ISO
25010.
For this project, the researchers developed a system using Arduino Uno, and
the programming language that it uses is C programming in Arduino IDE 20.0 version.
Researchers will use the Modified Waterfall Methodology, a classical proposed system
model. The researchers will test the system by using Alpha Testing on the owner of the
vegetable farm, the respondents, the other farmers, and the IT Professionals by using
Beta Testing.
Based on the Alpha and Beta testing, the system's beneficiaries agreed that
our system is highly recommended, mostly for the manual system, as they have.
Researchers also used ISO 25010 to evaluate the system's performance. This could
include testing the system and making improvements to the system.
The results yield a 4.69 mean rating to the client/owner, 4.74 to the other farmers,
and 4.46 to the IT Professionals. This proves that the system's performance will satisfy
the owner's need to operate the system.
The use of soil sensors is hereby recommended.
Description
xviii, 60p.
PDF Format.
PDF Format.
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Includes references and appendices.
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