Agriculture, Vol. 13, Pages 2026: Research on Hand–Eye Calibration Accuracy Improvement Method Based on Iterative Closest Point Algorithm

Agriculture, Vol. 13, Pages 2026: Research on Hand–Eye Calibration Accuracy Improvement Method Based on Iterative Closest Point Algorithm

Agriculture doi: 10.3390/agriculture13102026

Authors: Tingwu Yan Peijuan Li Yiting Liu Tong Jia Hanqi Yu Guangming Chen

In the functioning of the hand–eye collaboration of an apple picking robot, the accuracy of the hand–eye relationship is a key factor affecting the efficiency and accuracy of the robot’s operation. In order to enhance the low accuracy of traditional hand–eye calibration methods, linear and nonlinear solving methods based on mathematical tools such as quaternions are commonly adopted. To solve the loss of accuracy in decoupling during the linearization solution and to reduce the cumulative error that occurs during nonlinear solutions, a hand–eye calibration method, based on the ICP algorithm, is proposed in this paper. The method initializes the ICP matching algorithm with a solution derived from Tsai–Lenz, and substitutes it for iterative computation, thereby ascertaining a precise hand–eye conversion relationship by optimizing the error threshold and iteration count in the ICP matching process. Experimental results demonstrate that the ICP-based hand–eye calibration optimization algorithm not only circumvents the issues pertaining to accuracy loss and significant errors during solving, but also enhances the rotation accuracy by 13.6% and the translation accuracy by 2.47% compared with the work presented by Tsai–Lenz.