International Research Journal of Engineering and Technology (IRJET)
e-ISSN: 2395-0056
Volume: 06 Issue: 04 | Apr 2019
p-ISSN: 2395-0072
www.irjet.net
AUTOMATIC VEHICLE ACCIDENT DETECTION AND MESSAGING SYSTEM Pooja dharani. S1, Tharuni. A.P2, Viveka. S3 1,2,3Student,
Department of Electrical and Electronics Engineering, Sri Ramakrishna Engineering College, Coimbatore, India -----------------------------------------------------------------------***-----------------------------------------------------------------------Abstract - The main purpose of this system is to develop a prototype of Telemetric Box for vehicle diagnosis that can be installed into any vehicle. It plays a key role in vehicle crash investigations. This epitome may be designed with minimum variety of circuits. This can contribute to construct safer vehicles, rising the treatment for crash victims, serving to insurance corporations with their vehicle crash investigations, and enhancing road standing so as to decrease the death rate. The prototype provides complete information about the car along with Navigation system in collaboration with Google Map. The prototype can provide Artificial Intelligence Support by having a communication channel between the user and the car or Bike. Keywords:
Black
Box;
Google Map ;Artificial Intelligence; Navigation system; Global Positioning Society.
1. INTRODUCTION Have you ever wondered what really goes on under the hood of your car? Do you wish you could peek inside the enginemanagement system and read values from it? Are you annoyed that your dashboard displays a cryptic “check engine” light but gives absolutely no explanation what the problem might be? You don’t need a $10,000 specialist diagnostic console or even a laptop computer to get access to useful data from your car. According to the planet Health Organization, more than a million people in the world die each year because of transportation-related accidents. In order to react to the current scenario, the black box system draws the first step to solve problem. This system can now play a key role in motor vehicle crash investigations. A significant variety of vehicles presently on the roads contain electronic systems that record within the event of a crash. That is why it is so important to have recorders that objectively track what goes on in vehicles before, during and after a crash as a complement to the was used. Subjective input that's taken typically from victims, eye witnesses and police reports. This system is mainly committed to three section. The first one is a way to find and collect the data from the vehicle. The second is approach to a way to} gift the info to the user in a very simplified way. The most important is the third one, where the information related to abruptness and rashness in the driving skills of the driver are transmitted from one vehicle to another using Radio Frequency and suitable Transceivers. To measure the inclination of vehicle as well as measuring the tilting and analysing the speed of the vehicle, basically a Vehicle Dynamics Control Unit there are sensors used in the vehicle which are connected to the microcontroller. The applications include: 1. 2. 3.
Better crash analysis that will turn out improved driver teaching programs, safer road styles and improve route safety. Collision information for analysis, information to boost vehicle style internally and outwardly. To not solely record the relevant knowledge, however conjointly try to stop a attainable collision by limiting the speed of the vehicle in inclined areas. 4. Wireless communication by transmission of alert message in the event of a collision along with the time and location co-ordinates through GSM.
2. FUNCTION AND DESIGN OF THE PROPOSED PROTOTYPE The earlier system consisted diagnostics elements like Microphone and Camera for detection of any failure in the vehicle. The upgraded version has sensor based activation with the programmable board along with the Diagnostics Cable put inside a single box allowing the user to configure and detect the malfunctioning in the vehicle system and navigate through roads and paths by tracking through a mass platform Google Earth.
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