首页|Accuracy evaluation for in-situ machining reference points binocular measurement based on credibility probability

Accuracy evaluation for in-situ machining reference points binocular measurement based on credibility probability

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Passive binocular measurement systems are being increasingly utilized in the in-situ industries of automobiles,aviation,and aerospace,etc.due to their excellent qualities of accuracy,efficiency,and cost performance.Whereas the barrier of evaluating the accuracy of measured objects resulted from the unequal equivalent focal length and quantization of pixels,has limited their further development and application of high requirements for in-situ machining,e.g.,the mea-surement of machining reference points for the positioning of robotic drilling in aerospace manu-facturing.In this paper,an accuracy evaluation method is proposed to address the problem.Firstly,the unequal equivalent focal length is considered to improve the accuracy of 3D reconstruc-tion.Next,the credibility probability model is developed to calculate the probability of the observed error in the public view of the binocular measurement system and indicates the direction of improvement.Finally,the in-situ experiment is carried out to validate the method within the effec-tive public view range of 300 mm × 300 mm.The experiment results show that the RMSs of observed errors are superior to 0.035 mm,and the credibility probabilities are all higher than 0.91;the maximum 3D reconstruction accuracy improvement is 60.3%,with the error reduced from 0.078 mm to 0.031 mm.

Aerospace manufacturingBinocular visionCredibility probabilityPixel quantizationUnequal equivalent focal length

Binchao YU、Wei LIU、Yanze ZHANG、Dazhi MA、Zhenyuan JIA、Yi YUE、Jiabo ZHANG

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Key Laboratory for Precision and Non-Traditional Machining Technology of the Ministry of Education,Dalian University of Technology,Dalian 116024,China

Beijing Spacecrafts,China Academy of Space Technology,Beijing 100081,China

Key Technologies Research and Development Plan of ChinaNational Science Fund for Distinguished Young Scholars,ChinaLiaoning Revitalization Talents Program,ChinaLiaoning Revitalization Talents Program,China

2018YFA070330452125504XLYC1801008XLYC1807086

2024

10.1016/j.cja.2023.04.007

中国航空学报(英文版)
中国航空学会

中国航空学报(英文版)

CSTPCDEI
影响因子:0.847
ISSN:1000-9361
年,卷(期):2024.37(1)
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