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Summary
This summary is machine-generated.

This study introduces an Internet of Things (IoT) alert system using MQTT and InfluxDB for efficient data handling. The system provides scalable, user-selectable alerts on a Raspberry Pi, demonstrating feasibility and performance.

Keywords:
IoTMQTTRaspberry Piscalabilityselectivitywarning system

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Area of Science:

  • Computer Science
  • Electrical Engineering
  • Information Technology

Background:

  • Modern technology has led to increasingly complex and rapid systems.
  • The Internet of Things (IoT) landscape has evolved significantly, with dedicated protocols like MQTT and databases like InfluxDB now available for data management.
  • Existing systems often lack specialized infrastructure for handling the vast data generated by IoT projects.

Purpose of the Study:

  • To design and implement a scalable IoT alert system.
  • To leverage MQTT and InfluxDB for efficient data collection and storage.
  • To provide users with a web interface for selecting and displaying specific alerts on a Raspberry Pi.

Main Methods:

  • Utilized MQTT protocol for data transmission and InfluxDB for data storage.
  • Developed a scalable architecture for real-time alert processing.
  • Implemented a web interface for user interaction and alert customization.
  • Conducted performance and feasibility tests on the designed system.

Main Results:

  • Successfully designed and implemented an IoT alert system.
  • Demonstrated the scalability of the system to handle substantial data loads.
  • Validated the system's performance and feasibility through comprehensive testing.
  • Showcased the ability for users to customize alert preferences via a web interface.

Conclusions:

  • The proposed IoT alert system effectively utilizes MQTT and InfluxDB for scalable data management and alert dissemination.
  • The system offers a feasible solution for real-time monitoring and user-defined alerting in complex IoT environments.
  • Further development can enhance the system's capabilities and expand its applications.