Authors :
Soumya Mazumdar; Shivam Chowdhury; Souravdeep Giri; Adrita Bhattacharya
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/3kjc6z6z
Scribd :
https://tinyurl.com/56mjpjn7
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1634
Abstract :
Car wrecks are increasingly seen as a major
safety issue; damage and fatality reports from these
collisions are frequent. There are also more pedestrians
who are killed by automobile accidents in cities and on
highways. Additionally, autonomous cars often kill wild
creatures that go farther into nature reserves. One
cannot put a figure on the cost of a life, yet auto
accidents hurt assets. This study looks at the creation
and use of a complete collision avoidance system with the
goal of improving vehicle safety by using cutting-edge
technology. The suggested system includes an alcohol
detector to stop accidents caused by intoxicated driving,
an eye blink sensor to identify driver weariness, and an
ultrasonic distance sensor to enable automated braking
and collision avoidance. These sensors are seamlessly
integrated to identify possible traffic dangers and initiate
necessary reactions, all without depending on driver
participation, thanks to the use of Arduino
microcontrollers. The system design, methodology, and
experimental findings are discussed in the study, which
also shows how successful this integrated approach is at
reducing road accidents. This study advances the global
objective of increasing road safety by democratizing
access to cutting-edge safety features that were
previously only available in expensive cars.
Keywords :
Alcohol Detector, Arduino Microcontroller, Collision Avoidance System, Driver Fatigue Detection, Eye Blink Sensor, Road Safety, Ultrasonic Distance Sensor, Vehicle Safety.
Car wrecks are increasingly seen as a major
safety issue; damage and fatality reports from these
collisions are frequent. There are also more pedestrians
who are killed by automobile accidents in cities and on
highways. Additionally, autonomous cars often kill wild
creatures that go farther into nature reserves. One
cannot put a figure on the cost of a life, yet auto
accidents hurt assets. This study looks at the creation
and use of a complete collision avoidance system with the
goal of improving vehicle safety by using cutting-edge
technology. The suggested system includes an alcohol
detector to stop accidents caused by intoxicated driving,
an eye blink sensor to identify driver weariness, and an
ultrasonic distance sensor to enable automated braking
and collision avoidance. These sensors are seamlessly
integrated to identify possible traffic dangers and initiate
necessary reactions, all without depending on driver
participation, thanks to the use of Arduino
microcontrollers. The system design, methodology, and
experimental findings are discussed in the study, which
also shows how successful this integrated approach is at
reducing road accidents. This study advances the global
objective of increasing road safety by democratizing
access to cutting-edge safety features that were
previously only available in expensive cars.
Keywords :
Alcohol Detector, Arduino Microcontroller, Collision Avoidance System, Driver Fatigue Detection, Eye Blink Sensor, Road Safety, Ultrasonic Distance Sensor, Vehicle Safety.