3D LiDAR Based Autonomous Navigation and Collision Avoidance for Autonomous Mobile Robots
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Technology Overview
3D LiDAR is employed to enhance autonomous mobile robots’ navigation and collision avoidance capabilities. By generating detailed 3D maps, it enables precise navigation in various lighting conditions in various lighting conditions without relying on pre installed infrastructure. Applications include warehouse management and industrial automation.
CATEGORY
TECHNOLOGY READINESS LEVEL (TRL)
3D LiDAR Navigation System for Autonomous Mobile Robots
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High-Precision 3D Navigation:
Generates detailed 3D maps. Achieves up to 1 cm accuracy. Enhances collision avoidance
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Real-Time Embedded Performance:
With ceiling and ground optimisation which reduces computation and dimension reduced fusion and mapping to improves efficiency. Runs at 10 Hz on embedded systems
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Infrastructure-Free Operation:
Works in various lighting conditions. No pre-installed markers required. Suitable for dynamic environments
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Industrial-Ready Applications:
Warehouse management, distribution centres and industrial automation
Maritime Use Cases

The LiDAR-based perception and navigation system could be adapted to provide precise real-time environmental mapping and obstacle detection for autonomous or remotely operated maritime vessels, such as USVs or ROVs.

The advanced collision avoidance algorithms could enable these maritime vehicles to navigate safely in crowded waterways, near offshore structures, or in other dynamic maritime environments, reducing the risk of collisions and groundings.

The LiDAR system could also support automated docking and berthing maneuvers, as well as autonomous cargo handling or other specialized maritime operations, improving efficiency and safety.
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