Water quality monitoring is crucial for protecting public health and promoting environmental sustainability. This paper introduces a web-based application aimed at making water quality tracking easier across different locations. The system is built using HTML, CSS, and JavaScript for a user-friendly and responsive front-end. At the same time, Python Flask is employed as the back-end framework to ensure effective data processing and communication. A MySQL relational database is incorporated to store and manage water quality data securely. The responsive design allows for smooth accessibility on various devices, helping users stay updated on water conditions with ease. This study delves into the application's development process, covering the technology stack, system architecture, and database design. The web application provides real-time updates, easy navigation, and data visualization to improve user experience. By offering an accessible platform for monitoring water quality, this system plays a vital role in raising awareness and facilitating prompt actions to address water contamination risks. The findings underscore the importance of web-based solutions in environmental monitoring.

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Design and Development of Web Application to Track Water Quality in Rural Locations in Bangladesh

  • Supprio Ghosh Nil,
  • Md. Ataur Rahman,
  • Md. Najmus Sakib Sourov,
  • Md. Ismail Jabiullah,
  • Mahady Hasan,
  • Md. Tarek Habib

摘要

Water quality monitoring is crucial for protecting public health and promoting environmental sustainability. This paper introduces a web-based application aimed at making water quality tracking easier across different locations. The system is built using HTML, CSS, and JavaScript for a user-friendly and responsive front-end. At the same time, Python Flask is employed as the back-end framework to ensure effective data processing and communication. A MySQL relational database is incorporated to store and manage water quality data securely. The responsive design allows for smooth accessibility on various devices, helping users stay updated on water conditions with ease. This study delves into the application's development process, covering the technology stack, system architecture, and database design. The web application provides real-time updates, easy navigation, and data visualization to improve user experience. By offering an accessible platform for monitoring water quality, this system plays a vital role in raising awareness and facilitating prompt actions to address water contamination risks. The findings underscore the importance of web-based solutions in environmental monitoring.