Automatic Gas Reservations Using IoT with Notification

Authors

  • K. Rama Abirami Associate Professor, Department of Information Science and Engineering, Dayananda Sagar Academy of Technology and Management, Bangalore, India
  • Arcot Prashanth Student, Department of Information Science and Engineering, Dayananda Sagar Academy of Technology and Management, Bangalore, India
  • Karanam Ramyasree Student, Department of Information Science and Engineering, Dayananda Sagar Academy of Technology and Management, Bangalore, India
  • Kishan Bhat Student, Department of Information Science and Engineering, Dayananda Sagar Academy of Technology and Management, Bangalore, India
  • Nikhita Arun Student, Department of Information Science and Engineering, Dayananda Sagar Academy of Technology and Management, Bangalore, India

Keywords:

Internet-of-Things (IoT), Fire sensor, Gas sensor, Load cell, GSM module, LCD module, Weight sensor

Abstract

Gas leaks and fires are a common occurrence in our daily life. LPG, or liquefied Petroleum gas is a highly flammable gas used in heating appliances. If this gas escapes, it increases the risk of fire, choking, and explosion in the building. Because LPG use is growing daily, the booking mechanism is ineffective. The system is unable to register and respond to each booking request due to the large number of customers. This project is concerned about the issues and contributes to its effectiveness. If the gas level goes below a predetermined level, a phone warning is sent, and after consumer confirmation, the gas agency is informed to record the booking. By detecting any gas leaks or flames, the effort also ensures the safety of individuals who operate near the cylinder. If any of these are detected, a buzzer will beep. This will be informed to the user as well as the gas agency.

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Published

05-07-2022

How to Cite

[1]
K. R. Abirami, A. Prashanth, K. Ramyasree, K. Bhat, and N. Arun, “Automatic Gas Reservations Using IoT with Notification”, IJRESM, vol. 5, no. 6, pp. 337–339, Jul. 2022.

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