Implementation of Map Based Automated Navigation Robot
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Abstract
The advancement of autonomous robotic systems has led to innovative applications in document delivery, tour guidance, and obstacle avoidance. This research focuses on the development of a Map-Guided Automated Robot designed to enhance efficiency in office environments by securely transporting documents and materials. The system integrates multiple sensor technologies, including ultrasonic sensors for obstacle detection, a color sensor for navigation, and an RFID module for security authentication. A microcontroller-based control system ensures seamless operation, with data logging capabilities for performance tracking.
Additionally, the study incorporates principles of autonomous tour guide robots and obstacle avoidance mechanisms. A QR code recognition system enables navigation in structured indoor environments, while ultrasonic range sensors assist in maintaining safe distances from obstacles. Furthermore, fuzzy control algorithms and LiDAR-based navigation strategies are explored to improve autonomous movement in dynamic conditions. The integration of Bluetooth communication and text-to-speech functionality enhances human-robot interaction, making the system adaptable to diverse applications such as office logistics, guided tours, and unmanned surface vehicle navigation.