A Novel Subpixel Size Calibration Method for the Size Detection of Microtarget on Large-Aperture Optics Surface

Linjie Zhao, Zhaoyang Yin, Dezhi Zhang, Jian Cheng, Hao Yang, Chao Tan, Qi Liu, Mingjun Chen, Xiaodong Yuan

Research output: Contribution to journalArticlepeer-review

2 Citations (SciVal)

Abstract

Large-aperture optics play key roles in the laser beam transmission processes involved in high-power laser facilities. The microtargets (e.g., contaminants, dust, and particles) adhering to the optical surfaces would greatly affect the optical performance and, thus, need to be accurately detected for evaluating the cleanliness quality of optical components. However, due to the limit of camera resolution (the actual size of the target area on the optics surface represented by a single pixel ranges from 50 to 100 mu {m} ), it is of great challenge to accurately detect the sizes of tiny microtargets (roughly 20 mu {m} ). In this work, a novel subpixel size calibration method based on the regression model and the Mie scattering theory was proposed to precisely calculate the actual sizes of the tiny microtargets. The least-squares support vector machine (LSSVM) principle was applied to establish the area calibration model, and the random sampling consistency (RANSAC) algorithm was applied to optimize the selection of training samples and eliminate the outliers at the same time. The results showed that the relative diameter errors of about 90% of the detected microtargets were less than 30%, which is much better than that of the common pixel-level calibration method. The minimum detectable diameter of the microtargets with the proposed size calibration method can reach 15.8mu {m} , which is much smaller than the resolution ( 53.7mu {m} ) of commercial cameras. A similar high calibration accuracy can be achieved in different regions on the optical surfaces although the illumination conditions were different. The proposed subpixel size calibration method can be applied to detect the microtargets with dimensions as small as 20 mu {m} on the large-aperture reflector surfaces, which would greatly save the cost of detection equipment and improve the detection efficiency.

Original languageEnglish
JournalIEEE Transactions on Instrumentation and Measurement
Volume71
Early online date18 Oct 2021
DOIs
Publication statusPublished - 1 Jan 2022

Funding

This work was supported in part by the National Natural Science Foundation of China under Grant 51775147 and Grant 51705105

FundersFunder number
National Natural Science Foundation of China51705105, 51775147

    Keywords

    • Large-aperture optics
    • least-squares support vector machine (LSSVM)
    • microtarget detection
    • random sampling consistency (RANSAC)
    • regression model
    • subpixel size calibration

    ASJC Scopus subject areas

    • Instrumentation
    • Electrical and Electronic Engineering

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