Autonomous Evolution: Bluetooth-Controlled Robotic Smart Cars for Safer and Smarter Transportation
摘要
Bluetooth is a widely used wireless technology that enables devices to communicate without the need for physical cables. This paper delves into the design and functionality of an automated robotic car managed through a smartphone using Bluetooth connectivity. The system integrates various sensors to facilitate smooth road navigation while minimizing the likelihood of vehicle collisions. Essential components, such as Arduino microcontrollers, sensors, DC motors, and Bluetooth modules, are central to its operation. This autonomous vehicle employs cutting-edge technologies, including radar, laser light, GPS, computer vision, and advanced sensors, to perceive its environment, detect obstacles, chart routes, and interpret traffic signs. The control system processes data from sensors to identify different road paths, which supports efficient route planning. The design prioritizes lane adherence and offers superior navigation compared to conventional vehicles. By leveraging real-time sensor data, the car delivers accurate handling and enhanced safety on the road. Key safety features, such as obstacle detection and lane-keeping support, are included to decrease the risk of accidents by up to 85%, making it a dependable and secure choice for daily use. This ground-breaking system not only streamlines driving tasks but also contributes to the advancement of intelligent and safer transportation solutions. This system also ensures collision prevention with the help of the sensors. This car also doesn’t require a human to control it manually which reduces the chances for any human made errors. This system might help us with the advancement in the field of transportation.