This project aims to develop an advanced obstacle-avoiding robot with Bluetooth and voice control built on the Arduino platform. Designed to assist individuals with limited mobility, the robot offers an intuitive and accessible interface for movement control. Utilizing ultrasonic sensors, the obstacle avoidance system detects and navigates around obstacles, ensuring a safe and seamless ride. The voice control feature allows users to operate the robot hands-free with simple voice commands, enhancing ease of use and convenience. Bluetooth provides remote control via a smartphone or other compatible devices, granting users greater flexibility and freedom in managing the robot's movements. By integrating these state-of-the-art technologies, the project improves the quality of life for those with mobility challenges and promotes greater independence. The combination of obstacle avoidance, voice commands, and Bluetooth control creates a user-friendly and versatile robotic assistant tailored to individuals seeking enhanced mobility solutions.