We can increase the speed of Motors using Trimpot. The system also has 2 Motors used to demonstrate as car engine. This complete system is now powered by an Arduino Mega to operate the system. The system makes use of Temperature sensor for fire detection in car, Vibration sensor to detect any impact force or heavy vibrations, Alcohol sensor to check if driver was drunk, gyro scope sensor to record data if vehicle tilted or turned over during accident and a GPS and GSM modem to send SMS with GPS Coordinates about the incident.
Accident Data Storage for Investigation. Instant SMS Alert for Fire or Accident Detection. 
Instant SMS alert for Drunk Driving Detection. This System provides the following advantages: As well as the system stores all readings that lead and happened during the accident so that investigators may study exact causes of accident to avoid further such instances. So here we design a system that can alert the vehicle owner/loved ones over sms as soon as any signs of accident or may lead to an accident are detected. Road traffic crashes cost most nations 3% of their GDP. These misfortunes emerge from the expense of treatment as well as lost efficiency for those killed or crippled by their injuries, and for family individuals who need to get some much needed rest work or school to really focus on the harmed. Road traffic injuries make high economic losses for people, their families, and to countries in general. Somewhere in the range of 20 and 50 million additional individuals experience non-fatal injuries, with many causing a disability because of their physical issue. Electronics and Communication Project IdeasĬonsistently the existences of roughly 1.3 million individuals are cut short because of a road traffic crash. Tarek Mohammad, “Using Ultrasonic and Infrared sensors for Distance Measurement”, World Academy of science, Engineering and Technology 51 2009. Manabu Ishihara, Makota Shiina and Shin- nosuke Suzuki,“Evalution of Method Of Measuring Distance Between Object and walls Using Ultrasonic Sensors”, Journal of Asian Electric Vehicles, Volume 7, Number 1, June 2009. I.Han and K.S.Yang,“Characteristic analysis for cognition of dangerous driving using automobile black boxes”, International journal of Automotive Technology, Vol. 
Peter Niehoff, Hampton C.Gabler, John Brophy, Chip Chidester, John Hinch, Carl Ragland, “Evaluation Of Event Data Recorders In Full System CrashTests”, NHTSA paper No: 05-0271. Wonhee Lee and Inhwan Han, “Development and test of a motor vehicle event data recorder”, Journal of Automobile Engineering, vol-218 Number 9/2004, pp.977-985. Preeti Bajaj, Sandesh Dahake, and Hemant Wandhare,“Design approach for VHDL and FPGA Implementation of Automotive Black Box using CAN Protocol”,IJCSNS International Journal of Computer Science and Network Security, VOL.8 No.9, September 2008.
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