Advanced Anti-Collision Vehicle

International Research Journal of Engineering and Technology (IRJET)

e-ISSN: 2395-0056

Volume: 09 Issue: 06 | June 2022

p-ISSN: 2395-0072

www.irjet.net

Advanced Anti-Collision Vehicle Prof Harshal Chaughule1, Rohan Bhamre2, Jignesh Kachhadia3, Deepak Pathak4, Omveer Kumar5 1 2 3 4 5Department

Of Electrical Engineering Sandip University, Nashik, India ---------------------------------------------------------------------***---------------------------------------------------------------------

Abstract - The main plan behind creating my “ADVANCE

collision avoidance, automatic head-on anti-collision system focused on to avoid head-on collision only. This system consists of Arduino microcontroller, ultrasonic sensor module, RF module and DC geared motors. Microcontroller is used to calculate the distance by using ultrasonic module and checks the measured distance against the respective car's ahead and in critical distance, it automatically stops itself.

ANTICOLLISION VEHICLE” is to eliminate the chance of accident and supply safety to humans, associate defrayals and infrastructure harm caused because of the accident. machinecontrolled anti-collision system by detection obstacles for industry is one the rising technologies nowadays. an automatic vehicle anti-collision system is an automobile safety system that prevents collision among automotives and objects automatically. during this paper, we've mentioned regarding implementation of the epitome of our designed microcontroller primarily based automated car anti-collision system. Our system focuses on detecting obstacles by sharp distance sensing element and alerts among shut distance of collision and hereafter brakes mechanically by mechanism in important distance while not the assistance of driving person. If somehow driver fails avoiding the collision, this technique can automatically stop the vehicle because it monitors the condition of the vehicle continuously. thus it's a user friendly and versatile system which may forestall road accidents, scale back the speed of accidents similarly as accidental death of human life. It is utilized in any quite automobile vehicle as it' a price effective system.

3. LITERATURE SURVEY Introduction There is an existential issue with removing a driver from the vehicle. you just cannot give 100 percent service convenience nor a satisfactory level of client experience, not these days and not in fifty years. Human interaction is mission-critical. There are several cases wherever an autonomous system is incapable of responding to the amount that the customer needs and is entitled to. the dearth of a person's behind the wheel not solely implies that there'll be vehicle time period because of going long-winded by totally different things however that on the face of it easy services can't be delivered. the rationale is simple, a machine doesn't know how to act with a person's identical means that a human does. The client expertise is presumably the most important issue of all of them once it involves autonomy and that they are available four main categories: rider concerns, emergencies, deliveries, and attended zones.

Key Words: Arduino Board, Heat, GLCD (Graphical Liquid Cristal Display) Arduino, Motor, Distance, LED, Battery.

1. INTRODUCTION The number of vehicles is increasing day by day associate degreed proportionately the numbers of accidents are increasing. These accidents are largely caused by the delay of the motive force to hit the brake. to forestall the accidents caused by this delay, to avoid these we tend to are victimization advanced anti-collision system that includes of 3mechanism together. the most target of the advanced anticollision system is that, automobiles ought to mechanically brake once the sensors sense the obstacle. this can be a technology for auto-mobiles to sense the collision with another vehicle or an obstacle, and to brake the car accordingly, which is completed by the braking circuit / relay

There are certain technologies that already exists in the area of obstacle detection and anti-collision. Some of them are as mentioned. Each of them deals with the obstacle in a similar way, the only differentiation is the sensor and its technique in recognizing the obstacle and actions initiated. after sensing the obstacle. The following are the different approaches that were implemented in previous attempts of solving the obstacle problem, such as an automated emergency braking system. This system consists of two photoelectric distance measurement sensors, electronic control unit to give input and output of sensor, hydraulic circuit and hydraulic cylinder. The system can work up to 10m. Considering the existing system for collision avoidance, automatic head-on anti-collision system focused on to avoid head-on collision only. This system consists of Arduino microcontroller, ultrasonic sensor module, RF module and DC geared motors. Microcontroller is used to calculate the distance by using ultrasonic module and checks the measured distance against the respective car's ahead and in

2. RELATED WORK Such as an automated emergency braking system. This system consists of two photoelectric distance measurement sensors, electronic control unit to give input and output of sensor, hydraulic circuit and hydraulic cylinder. The system can work up to 10m. Considering the existing system for

© 2022, IRJET

|

Impact Factor value: 7.529

|

ISO 9001:2008 Certified Journal

|

Page 2736