Republic of the Philippines
CAVITE STATE UNIVERSITY
Don Severino de las Alas Campus
Indang, Cavite
COLLEGE OF ENGINEERING AND INFORMATION TECHNOLOGY
Department of Information Technology
PLANTLET: A WIRELESS APPLICATION FOR SOIL MOISTURE,
SUNLIGHT PHOTORESISTOR MONITORING AND
AUTOMATED WATERING FOR LETTUCE
RESEARCHERS: Arada, Kim Danielle Diego P., Nastor, Aubrey Nichole L., Signo, Aeren Jasper A.,
Turalde, Juan C. Jr.
Instruction: Kindly evaluate the demonstrated hardware and software by putting a checkmark (✔) under the
corresponding numerical rating. Use the legend as your guide.
Name : Melvin G. Rioveros
Course: BS in IT ____________________ Occupation: IT Support_______________________________
Sex: _✔_ Male ___Female
Legend: 5 – Excellent 4 – Very Good 3 – Good 2 – Fair 1 – Poor
FUNCTIONALITY SUITABILITY 5 4 3 2 1
The system can effectively monitor the intensity of sunlight received by the lettuce. ✔
The system can monitor the soil moisture level. ✔
The system can activate the automated irrigation system based on soil moisture ✔
levels.
The system reliability controls shade nets in response to sunlight intensity ✔
The system can display both sunlight intensity and soil moisture data in real-time ✔
on the wireless application.
PERFORMANCE ACCURACY
The system responds quickly to changes in sunlight intensity ✔
The system activates the automated irrigation system without delay when moisture ✔
levels reach the threshold
The data displayed in the application is accurate and reliable ✔
Compatibility
The system is compatible with the sensors and hardware used for monitoring ✔
sunlight, soil moisture, and controlling shade nets.
The system is compatible with commonly used devices (e.g., smartphones, tablets) ✔
for the wireless application.
The system can integrate with other environmental control systems if needed. ✔
Usability
The system can be easily set up and configured for monitoring and controlling ✔
irrigation and sunlight.
The system's wireless application is intuitive and easy to use for viewing sunlight ✔
and moisture data.`
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�The system allows easy control of functions (e.g., activating irrigation, adjusting ✔
shade nets) via the wireless application.
RELIABILITY AND DURABILITY 5 4 3 2 1
The system experiences minimal technical failures during testing. ✔
The system's wireless application consistently displays accurate data (sunlight ✔
intensity and soil moisture).
The system can maintain continuous operation without frequent interruptions or ✔
resets.
SECURITY
The system ensures secure communication between the hardware and the ✔
wireless application
The system has security features to prevent unauthorized access (e.g., ✔
passwords, authentication).
MAINTAINABILITY
The system can be easily updated or modified (e.g., adding new sensors, ✔
adjusting system parameters).
The system components (e.g., Arduino, sensors) are easy to replace or repair if ✔
necessary.
PORTABILITY
The system can be easily relocated or adjusted to different growing environments ✔
(e.g., different types of plants or climates).
The system is compact and easy to move if necessary (e.g., portability of the ✔
hardware setup).
Comments and Suggestions:
Signature (required):
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