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Precise monocular vision-based pose measurement system for lunar surface sampling manipulator 被引量:4

Precise monocular vision-based pose measurement system for lunar surface sampling manipulator
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摘要 Space manipulator has been playing an increasingly important role in space exploration due to its flexibility and versatility. This paper is to design a vision-based pose measurement system for a four-degree-of-freedom(4-DOF) lunar surface sampling manipulator relying on a monitoring camera and several fiducial markers. The system first employs double plateaus histogram equalization for the markers to improve the robustness to varying noise and illumination. The markers are then accurately extracted in sub-pixel based on template matching and curved surface fitting. Finally, given the camera parameters and 3D reference points, the pose of the manipulator end-effector is solved from the 3D-to-2D point correspondences by combining a plane-based pose estimation method with rigid-body transformation. Experiment results show that the system achieves highprecision positioning and orientation performance. The measurement error is within 3 mm in position, and 0.2° in orientation,meeting the requirements for space manipulator operations. Space manipulator has been playing an increasingly important role in space exploration due to its flexibility and versatility. This paper is to design a vision-based pose measurement system for a four-degree-of-freedom(4-DOF) lunar surface sampling manipulator relying on a monitoring camera and several fiducial markers. The system first employs double plateaus histogram equalization for the markers to improve the robustness to varying noise and illumination. The markers are then accurately extracted in sub-pixel based on template matching and curved surface fitting. Finally, given the camera parameters and 3D reference points, the pose of the manipulator end-effector is solved from the 3D-to-2D point correspondences by combining a plane-based pose estimation method with rigid-body transformation. Experiment results show that the system achieves highprecision positioning and orientation performance. The measurement error is within 3 mm in position, and 0.2° in orientation,meeting the requirements for space manipulator operations.
出处 《Science China(Technological Sciences)》 SCIE EI CAS CSCD 2019年第10期1783-1794,共12页 中国科学(技术科学英文版)
基金 supported by the National Natural Science Foundation of China(Grant Nos.11727804,11872070) the Hunan Provincial Natural Science Foundation of China(Grant No.2019JJ50732)
关键词 VISION-BASED POSE measurement POSE estimation LUNAR surface sampling SUB-PIXEL CORNER detection Chang’e 5 vision-based pose measurement pose estimation lunar surface sampling sub-pixel corner detection Chang’e 5
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