Authors :
M. Praharsha; M. Raghavanjali; Gajjala Nikitha; Dr. A.N. Satyanarayana
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/4aakjytd
Scribd :
https://tinyurl.com/ywdv7srw
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR2287
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
The project addresses the increased demand
for vehicle tracking systems in the embedded systems
industry by providing a solution that combines accident
avoidance and real-time tracking capabilities. The
system takes a holistic approach to road safety by
integrating components such as the Arduino
microcontroller, alcohol sensor MQ2, heartbeat sensor,
limit switch, relay, Liquid Crystal Display, Global
Positioning Satellite, and Global system for mobile
communication module. The system's ability, in
particular, to detect and prevent drunk driving incidents
makes a substantial contribution to road safety. The
project's goal is to avoid accidents and fatalities by
automatically alerting drivers when they attempt to
operate a car while intoxicated. Finally, the project's
emphasis on improving road safety through proactive
monitoring and intervention highlights its potential to
make a significant contribution to reducing traffic
accidents and saving lives.
Keywords :
Alcohol Detection, Arduino Uno, MQ2 Sensor, Liquid Crystal Display, Global Positioning Satellite, and Global System for Mobile Communication Module., Heartbeat Sensor.
References :
- Nicky Kattukkaran Arun George, Mithun Haridas T.P , “Intelligent Accident Detection and Alert System for Emergency Medical Assistance” CCCI – 2017
- M. Rahman, J. Mou, K. Tara and M. Sarker, "Real Time Google Map And Arduino Based Vehicle Tracking System", 2nd International Conference on Electrical Computer & Telecommunication Engineering (ICECTE)
- A. S. Murthy and T. Ravindra, “Accident Location Detection Using Vehicle Tracking System”, International Journal of Advanced Research in Education Technology, Vol. 2, Issue 3, July-September 2015 K. Elissa, “Title of paper if known,” unpublished.
- G. Kiruthikamani, B. Abinayaa, B. Saranya, P. Devi and R.Gayathri, “Smart Vehicle Safety System Using Arduino”, International Journal of Trend in Research and Development, Vol. 3, Issue 6, November-December 2016.
- N. Saluja, "Road accidents claimed over 1.5 lakh lives in 2018 overspeeding major killer", The Econimic Times, Feb 2 2020
- DW. Dong, C. Cheng, L. Kai, “The automatic control system of anti-drunk-driving” (Proceedings International Conference on Electronics, Communications and Control, ICECC 2011)
- C. Prabha, R. Sunitha and R. Anitha, "Automatic Vehicle Accident Detection and Messaging System Using GSM and GPS Modem", IJAREEIE, vol. 3, no. 7, pp. 10723- 10727, July 2014.
The project addresses the increased demand
for vehicle tracking systems in the embedded systems
industry by providing a solution that combines accident
avoidance and real-time tracking capabilities. The
system takes a holistic approach to road safety by
integrating components such as the Arduino
microcontroller, alcohol sensor MQ2, heartbeat sensor,
limit switch, relay, Liquid Crystal Display, Global
Positioning Satellite, and Global system for mobile
communication module. The system's ability, in
particular, to detect and prevent drunk driving incidents
makes a substantial contribution to road safety. The
project's goal is to avoid accidents and fatalities by
automatically alerting drivers when they attempt to
operate a car while intoxicated. Finally, the project's
emphasis on improving road safety through proactive
monitoring and intervention highlights its potential to
make a significant contribution to reducing traffic
accidents and saving lives.
Keywords :
Alcohol Detection, Arduino Uno, MQ2 Sensor, Liquid Crystal Display, Global Positioning Satellite, and Global System for Mobile Communication Module., Heartbeat Sensor.
