Automatic Braking System in Vehicles Using Sensor-Based Collision Avoidance

Authors

  • Manish Kumar Mandal, Manish Kaswan, Khilesh Sahu, Md. Kamran Mallick, Dr. Uma Shankar Kurmi

Keywords:

Automatic Braking System, Arduino, Ultrasonic Sensor, ADAS, Vehicle Safety, Collision Avoidance, Automatic Emergency Braking

Abstract

Road accidents caused by delayed driver response continue to be a major concern worldwide. Automatic Braking Systems (ABS/AEB) are advanced vehicle safety technologies designed to detect obstacles and automatically apply brakes to prevent collisions. This paper presents the design, implementation, and performance evaluation of an Automatic Braking System using ultrasonic sensors, microcontrollers, and braking actuators. The system continuously monitors the distance between the vehicle and surrounding obstacles. When a potential collision is detected within a predefined safety range, the controller activates the braking mechanism without requiring driver intervention. Experimental results demonstrate improved reaction time, reduced stopping distance, and enhanced passenger safety. The proposed system is economical, reliable, and suitable for integration into modern vehicles as part of Advanced Driver Assistance Systems (ADAS).

References

NHTSA, 'Automatic Emergency Braking Systems Research Report,' 2024.

SAE International, 'Advanced Driver Assistance Systems and Collision Avoidance,' 2023.

Naram Madhu et al., 'Design and Fabrication of Automatic Braking System in a Vehicle,' 2022.

Erik Coelingh et al., 'Collision Warning with Auto Brake,' IEEE, 2007.

Andreas Eidehall et al., 'Automatic Emergency Braking Systems,' 2010.

Likun Xia et al., 'Review of Automated Emergency Braking Systems,' 2013.

Asha, H. V., et al. 'Smart Sensor-Based Collision Detection and Avoidance in Automotive Systems.' International Journal of Research and Technology, Vol. 12, 2024.

Dasgupta, A., et al. 'IoT-Based Vehicle Safety Monitoring and Automated Response Systems.' IJRT, Vol. 13, 2025.

Garg, B., et al. 'Microcontroller-Based Intelligent Braking and Driver Assistance Systems.' International Journal of Research and Technology, 2024.

Kamienski, C., et al. 'Real-Time Sensor Fusion for Autonomous Vehicle Safety Applications.' IJRT, Vol. 13, 2025.

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How to Cite

Manish Kumar Mandal, Manish Kaswan, Khilesh Sahu, Md. Kamran Mallick, Dr. Uma Shankar Kurmi. (2026). Automatic Braking System in Vehicles Using Sensor-Based Collision Avoidance. International Journal of Research & Technology, 14(2), 1109–1118. Retrieved from https://ijrt.org/j/article/view/1403

Issue

Vol. 14 No. 2 (2026): Volume 14 Issue 02 April - June 2026

Section

Original Research Articles

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

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