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Satellite telescope lens surface defect contour detection method

A contour detection and telescope technology, applied in the direction of measuring devices, optical testing defects/defects, image data processing, etc., can solve the in-situ non-contact defect detection of large-scale optical devices, the size limit of detection optical components, and the complexity of equipment assembly and other problems to achieve the effect of improving accuracy, enhancing damage characteristics, and improving fitting accuracy

Active Publication Date: 2021-03-16
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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Problems solved by technology

For the traditional precision system for detecting surface defects, although the detection accuracy is high, the equipment assembly is complicated and the cost is high, and there are strict requirements on the positional relationship and movement of the components. If the specific posture changes, the The directional indication also changes accordingly, so the operator is required to have a certain knowledge base of the optical neighborhood
The biggest disadvantage of the precision system is that the size of the detection optical components is limited. The measured objects are usually in the order of centimeters or decimeters, and it is impossible to perform in-situ non-contact defect detection on large-size optical components.

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  • Satellite telescope lens surface defect contour detection method
  • Satellite telescope lens surface defect contour detection method
  • Satellite telescope lens surface defect contour detection method

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[0127] In this embodiment, there are scratches on the surface of the satellite telescope lens, Figure 7 There is a scratch on the middle and upper edge, and particles formed by gas solidification adhere to the lens, and they are randomly and scatteredly distributed. use figure 1 The detection system shown collects images of defects on the surface of the satellite telescope lens, turns on the vertical collimator, and irradiates the laser point on the geometric center of the lens under test placed horizontally, ensuring that the vertical collimator is perpendicular to the lens of the satellite telescope under test. Adjust the position of the sliding assembly on the ruler slide rail, move the direct light source to the position of the vertical calibrator, so that the center of the direct light source and the center of the lens of the satellite telescope under test are on the same axis. Adjust the height of the ruler slide rail so that the lens under test can be completely irrad...

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Abstract

The invention discloses a satellite telescope lens surface defect contour detection method. An optimized clustering algorithm is used for carrying out pixel point classification processing on an acquired optical defect image to suppress the influence of illumination intensity non-uniformity on the intensity of the acquired image, and meanwhile, a regularization item considering neighborhood spaceinformation is added to a traditional clustering function, so that not only neighborhood information is considered, but also the neighborhood information of neighborhoods is also considered to ensurethe detection precision of the defects. For the classified images, an edge detection algorithm is adopted to extract approximate defect contours, and then polynomial fitting is selected to further refine the contours, so that the fitting precision is improved, the contour feature information is better represented, and subsequent quantitative analysis on defects of the satellite telescope lens is facilitated.

Description

[0001] technology neighborhood [0002] The invention belongs to the technical field of surface defect detection, and more specifically relates to a method for detecting the surface defect contour of a satellite telescope lens. Background technique [0003] Ultra-precision optical components are an important part of many high-precision instruments and equipment systems. In the aerospace neighborhood, a large number of optical components are used in satellites, most notably satellite telescopes, and are usually on the order of meters in diameter. For satellites, its main function is to photograph, reconnaissance, and monitor the ground. Therefore, space telescopes used for satellites require high imaging sensitivity, high precision, and strong resolution. The satellite telescope is in the atmospheric environment, and the gas will not affect the shooting process. But in space, due to its very low temperature, the gas in the nebula (such as hydrogen, methane) will solidify into...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06T7/00G06T7/13G06K9/62G06T5/00G01N21/88
CPCG06T7/0002G06T7/13G01N21/8851G06T2207/10004G01N2021/8887G06F18/2321G06F18/241G06T5/70
Inventor 程玉华陈薇殷春王胤泽张博陈凯杨晓邱根
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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