The study aimed to develop an eco-smart, solar-powered, and web-based lighting system to provide sustainable lighting, ensure campus safety, and promote energy efficiency. The system enables administrators to track energy consumption, see system performance in real time. It also enables users to track energy metrics or energy consumption and battery life. The system was developed using HTML, CSS, and JavaScript for the front end; PHP as the back end; MySQL as the database; phpMyAdmin as the database management system; Visual Studio Code as the code editor; and XAMPP for localhost. The system was tested. It was evaluated using the ISO 25010 instrument. All the criteria in the ISO 25010 instrument, namely functional suitability, performance efficiency, compatibility, usability, reliability, security, maintainability, and portability, have a quantitative interpretation of “Excellent” with an overall mean score of 4.68. For further system improvement, the researchers recommend to improve the existing features of the system.

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Eco-Smart Solar-Powered and Web-Based Lighting System

  • Alexandra R. Canuday,
  • Franz Raymark L. Guevarra,
  • Princess T. Ortega,
  • Krizza Jill S. Tagomata,
  • Khenilyn P. Lewis

摘要

The study aimed to develop an eco-smart, solar-powered, and web-based lighting system to provide sustainable lighting, ensure campus safety, and promote energy efficiency. The system enables administrators to track energy consumption, see system performance in real time. It also enables users to track energy metrics or energy consumption and battery life. The system was developed using HTML, CSS, and JavaScript for the front end; PHP as the back end; MySQL as the database; phpMyAdmin as the database management system; Visual Studio Code as the code editor; and XAMPP for localhost. The system was tested. It was evaluated using the ISO 25010 instrument. All the criteria in the ISO 25010 instrument, namely functional suitability, performance efficiency, compatibility, usability, reliability, security, maintainability, and portability, have a quantitative interpretation of “Excellent” with an overall mean score of 4.68. For further system improvement, the researchers recommend to improve the existing features of the system.