Authors :
Nishu Sharma; Satyattma Singh Patel; Ankit Kumar; Akash Kumar; Faizan; Krishna Kant Ranjan
Volume/Issue :
RISEM–2025
Google Scholar :
https://tinyurl.com/5czmeacr
Scribd :
https://tinyurl.com/2awavn93
DOI :
https://doi.org/10.38124/ijisrt/25jun181
Abstract :
In the pursuit of sustainable and intelligent transportation, this research presents Solar Drive- a compact solar-
powered vehicle integrated with an Arduino-based automatic braking system. The project combines renewable energy with
embedded automation to address the dual challenges of environmental degradation and road safety. The vehicle harnesses
solar energy for propulsion and employs ultrasonic sensors controlled by an Arduino microcontroller to detect obstacles
and initiate automatic braking. This integration ensures enhanced safety while maintaining energy efficiency. The system is
designed with cost-effective components, making it suitable for educational, experimental, and small-scale practical
applications. The study evaluates the performance of the braking system in real-time scenarios, highlighting its reliability,
response time, and energy consumption. Results indicate that Solar Drive can serve as a foundational model for future
development of smart, eco-friendly vehicles.
Keywords :
Solar-Powered Vehicle, Arduino Automation, Automatic Braking System, Sustainable Mobility and Ultrasonic Sensor- Based Safety.
In the pursuit of sustainable and intelligent transportation, this research presents Solar Drive- a compact solar-
powered vehicle integrated with an Arduino-based automatic braking system. The project combines renewable energy with
embedded automation to address the dual challenges of environmental degradation and road safety. The vehicle harnesses
solar energy for propulsion and employs ultrasonic sensors controlled by an Arduino microcontroller to detect obstacles
and initiate automatic braking. This integration ensures enhanced safety while maintaining energy efficiency. The system is
designed with cost-effective components, making it suitable for educational, experimental, and small-scale practical
applications. The study evaluates the performance of the braking system in real-time scenarios, highlighting its reliability,
response time, and energy consumption. Results indicate that Solar Drive can serve as a foundational model for future
development of smart, eco-friendly vehicles.
Keywords :
Solar-Powered Vehicle, Arduino Automation, Automatic Braking System, Sustainable Mobility and Ultrasonic Sensor- Based Safety.
