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环形子孔径测试的迭代拼接算法及其实验验证 被引量:3

Iterative stitching algorithm for annular subaperture testing and its experimental verification
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摘要 在子孔径拼接和定位算法的基础上研究了环形子孔径迭代拼接算法。该算法可通过精确找出重叠点对和寻找最优位形两个步骤来简化。研究了该算法在环形子孔径拼接测量中出现的如何确定重叠点的问题,并详细介绍了该算法的步骤。最后对160 mm口径的抛物面进行了拼接测量实验,拼接结果的PV值为0.186λ,RMS值为0.019λ,与自准直全口径测量结果基本一致。结果表明,环形子孔径的迭代拼接算法能够满足非球面镜的高精度测量。 In order to satisfy high precision and fast optical surface measuring, an iterative algorithm for annular subaperture stitching is discussed based on the Subaperture Stitching and Localization (SASL) algorithm. The basic theory of annular subaperture stitching is introduced, which can he divided into two parts, one is how to determine the overlapping points precisely and the other is how to find optimal configuration. Then, how to determine the overlapping points in annular subaperture stitching is studied and the detailed procedure of the iterative stitching algorithm is presented. Finally, a paraboloid of 160 mm aperture is tested with Annular Subaperture Test(AST), tested results in PV value of 0. 186λ and RMS value of 0. 019λ are consistent with the auto-collimated full aperture testing. All these discussions clearly prove that the iterative annular subaperture stitching algorithm can meet the requirement for high precision testing of aspherical surfaces.
作者 戴一帆 曾生跃 陈善勇
机构地区 国防科技大学机电工程与自动化学院
出处 《光学精密工程》 EI CAS CSCD 北大核心 2009年第2期251-256,共6页 Optics and Precision Engineering
基金 国家自然科学基金资助项目(No.60708016) 新世纪人才资助计划资助项目
关键词 环形子孔径拼接 迭代算法 非球面检测 annular subaperture stitching iterative algorithm aspherical testing
分类号 TH703 [机械工程—精密仪器及机械] TQ171.65 [化学工程—玻璃工业]
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  • 1侯溪,伍凡,吴时彬,陈强.以环形子孔径扫描法测量大口径非球面的研究[J].光电工程,2004,31(9):26-28. 被引量:10
  • 2程维明,林有略,陈明仪.多孔径扫描波面恢复技术的精度评定及影响因素[J].光学学报,1993,13(8):711-716. 被引量:9
  • 3张学军,张云峰,余景池,张忠玉.FSGJ-1非球面自动加工及在线检测系统[J].光学精密工程,1997,5(2):70-76. 被引量:20
  • 4[1]Murphy P, Forbes G, Fleig J, et al. Stitching interferometry:a flexible solution for surface metrology[J]. Optics and Photonics News, 2003, 14: 38~43
  • 5[2]Fleig J, Dumas P, Murphy P, et al. An automated subaperture stitching interferometer workstation for spherical and aspherical surfaces[C]. SPIE, 2003, 5188: 296~307
  • 6[3]Tronolone M J, Fleig J F, Huang C S, et al. Method of testing aspherical surfaces with an interferometer[P]. US5416586, 1995
  • 7[4]Schmucker M A, Schmit J. Selection process for sequentially combining multiple sets of overlapping surface-profile interferometric data to produce a continuous composite map[P]. US 5991461, 1999
  • 8[5]Schmucker M A, Becker B W. Method of combining multiple sets of overlapping surface-profile interferometric data to produce a continuous composite map[P]. US6185315B1, 2001
  • 9[6]Chen M Y, Cheng W M, Wang C W. Multi-aperture overlap-scanning technique for large aperture test[C]. SPIE, 1991, 1553: 626~635
  • 10[8]Chen M Y, Guo H W, Yu Y J, et al. Recent developments of multi-aperture overlap-scanning technique[C]. SPIE, 2003, 5180: 393~401

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光学精密工程
2009年 第2期

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