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LiDAR-360 RGB Camera-360 Thermal Camera Targetless Calibration for Dynamic Situations.

Khanh Bao Tran1, Alexander Carballo2,3,4, Kazuya Takeda1,3,4

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This summary is machine-generated.

This study introduces a new method for simultaneously registering LiDAR, RGB, and thermal cameras in dynamic environments. This approach enhances sensor calibration accuracy for autonomous systems, improving performance in real-world conditions.

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LiDARsego-motion compensationpanoramic RGB cameraspanoramic thermal camerastargetless calibration

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Area of Science:

  • Robotics and Autonomous Systems
  • Computer Vision
  • Sensor Fusion

Background:

  • Autonomous systems increasingly integrate multiple sensors like RGB cameras, thermal cameras, and LiDAR for comprehensive environmental data.
  • Current research often neglects the combined potential of all three sensor types, focusing on pairs.
  • Ego-motion compensation in dynamic environments presents challenges due to sensor characteristics like LiDAR's rotation and camera blind spots.

Purpose of the Study:

  • To propose a novel method for simultaneous registration of LiDAR, panoramic RGB, and panoramic thermal cameras.
  • To address ego-motion compensation challenges in dynamic environments without calibration targets.
  • To enhance the accuracy and reliability of multi-sensor calibration for autonomous systems.

Main Methods:

  • Feature extraction from RGB images, thermal data, and LiDAR point clouds using a novel technique.
  • Ego-motion compensation based on extracted features to optimize the initial dataset.
  • Refinement of raw features for enhanced calibration accuracy and precise alignment.

Main Results:

  • Demonstrated effectiveness in enhancing multi-sensor calibration compared to existing methods.
  • Achieved up to 30% improvement in LiDAR and camera calibration accuracy at speeds around 9 m/s.
  • Validated the proposed method's capability in dynamic and challenging environmental conditions.

Conclusions:

  • The novel method enables simultaneous registration of LiDAR, panoramic RGB, and thermal cameras in dynamic settings.
  • The approach effectively handles ego-motion compensation, improving calibration accuracy and reliability.
  • This work has the potential to significantly advance the performance of autonomous systems in real-world applications.