Enhanced real-time monitoring of physicochemical parameters in lake Buhi / Ajay B. De Lima, [and 3 others].
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Main Library | Undergraduate Thesis Section | UTH BSECE D278e 2025 (Browse shelf(Opens below)) | 1-1 | Not for loan | 006897UM |
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| UTH BSECE C819s 2012 Solar - powered, time based drip hydroponics system / | UTH BSECE C99m 2004 Multifunction connectivity tester / | UTH BSECE D260m 2011 Microcontroller-based solar charger using PIC16f877A/ | UTH BSECE D278e 2025 Enhanced real-time monitoring of physicochemical parameters in lake Buhi / | UTH BSECE D338h 2012 Helmet activated safety device for motorcycle / | UTH BSECE D338m 2002 Multifunction combination switch/ | UTH BSECE D355o 2006 The on-the-job training of the electronics and communication engineering students in CSPC/ |
Undergraduate Thesis (BSECE) - Electronics Engineering. Camarines Sur Polytechnic Colleges, 2025.
Includes bibliographical references.
This study presents a low-cost, real-time water quality monitoring system for Lake Buhi, a freshwater resource vital to the local economy and ecology. The system employs an Arduino Nano and ESP32 microcontroller to measure temperature, pH, turbidity, and dissolved oxygen (DO) using calibrated sensors. Sensor data is transmitted via Wi-Fi to a cloud server and displayed in a web-based graphical user interface (GUI). Results show 0% error in temperature, pH, and turbidity sensors, and a 0.87% average error for DO, proving the system's accuracy. The device addresses the need for sustainable environmental monitoring, offering a reliable alternative to manual sampling in aquaculture zones.
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