Main Article Content

Abstract

This paper is the implementation of the fire alarm security system using ARDUINO, digital flame sensor and gas sensor. The flame sensor can detect flame and infrared light sources of wavelengths ranging from 760 nm to 1100 nm. The gas detector detects the concentration of flammable gas present around its placed atmosphere.


This gadget is a modern household solution from gas leakages as well as incidents of explosion of cylinders or any emergency situation due to unobserved fire. The objective of this project is to contribute  towards the safety of human life or saving a human from fire-hazards.

Keywords

Infrared light modern household solution fire-hazards smoke detector flame sensor Arduino UNO

Article Details

Citations
Dhar, P. (2020). Advanced Fire Controller- AGNI : Design & Implimentation. [email protected] - Preprint Archive, 1(1). https://doi.org/10.36375/prepare_u.a84

References

  1. www.fire.org.nz/...Fire...Alarms/
  2. Huide Liu ; Lili Gao ; Suwei Li ; Tao Wu “ About automatic fire alarm systems research”, The 2nd
  3. IEEE International Conference on Information Management and Engineering (ICIME), 16-18 April 2010, pp. 419 – 421.
  4. Lei Zhang, and Gaofeng Wang, “Design and Implementation of Automatic Fire Alarm System based on Wireless Sensor Networks”,
  5. Proceedings of the 2009 International Symposium on Information Processing (ISIP’09) Huangshan, P. R. China,August 21-23, 2009, pp. 410-413
  6. Omar Asif, Md. Belayat Hossain, Mamun Hasan, Mir Toufikur Rahman, Muhammad E. H. Chowdhury, “Fire-Detectors Review and Design of an Automated, Quick Responsive FireAlarm System Based on SMS”, Scientific Research Publishing Inc, 28th August 2014.
  7. www.systemsensor.com.
  8. www.pertronic.co.nz/convention_systems/
  9. Alonso, F. (1996). La Seguridad en Calderas,INSHT, Madrid, España.Dukelow, S.G. (1991). The Control of Boilers, ISA,Research Triangle Park, USA.Feliú, V., Rivas, R., Castillo, F., Sotomayor J.(2005).
  10. Control Fraccional de Calderas Industriales Pirotubulares, Automatica and Instrumentation, Nº365, 90-95.Gilman, G.F. (2005).
  11. Boiler Control Systems Engineering, ISA – Instrumentation, Systems and Automation Society. Hogg, B.W., El-Rabaie, N.M. (1990). Generalized Predictive Control of Steam Pressure in a Drum Boiler, IEEE Trans. Energy Conversion, Vol. 5,Nº 3, 485-492. Lindsley, D.M. (2000).
  12. Power-plant Control and Instrumentation. The Control of Boilers an HRSG Systems, IEEE Control Engineering Series, Londres.Lindsley, D.M. (1991).
  13. Boiler Control System, Mc-Graw Hill, London.Ljung, L. (1999). System Identification – Theory for
  14. the User, Second Edition. Prentice Hall, Englewood Cliffs, NJ. Rivas, R., Aref, R., Perán, J.R., Sánchez, C. (2000).
  15. Industrial Boilers. Integral Automatic Control System, Automatica and Instrumentation, No. 308, 79-80.