Relative Localization System Design for SnailBot: A Modular Self-reconfigurable Robot
By: Shuhan Zhang, Tin Lun Lam
This paper presents the design and implementation of a relative localization system for SnailBot, a modular self reconfigurable robot. The system integrates ArUco marker recognition, optical flow analysis, and IMU data processing into a unified fusion framework, enabling robust and accurate relative positioning for collaborative robotic tasks. Experimental validation demonstrates the effectiveness of the system in realtime operation, with a rule based fusion strategy ensuring reliability across dynamic scenarios. The results highlight the potential for scalable deployment in modular robotic systems.
Similar Papers
Enabling Autonomous Navigation in a Snake Robot through Visual-Inertial Odometry and Closed-Loop Trajectory Tracking Control
Robotics
Snake robots can now explore new places alone.
Reflection-Based Relative Localization for Cooperative UAV Teams Using Active Markers
Robotics
Drones use reflections to find each other better.
Stable Multi-Drone GNSS Tracking System for Marine Robots
Robotics
Drones help underwater robots know where they are.