一种大步长的光学微扫描方法

A large step method of optical microscanning

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摘要旋转倾斜光学平板是一种光学微扫描方法,为了解决其对光学平板尺寸要求苛刻的问题,采用一种大步长扫描法,理论分析了该方法对频谱混叠和探测器调制传递函数的影响,并结合实验仿真对超分辨重建图像的质量评价参量进行了实验验证。结果表明,该方法不但降低了平行平板加工难度,而且依然能抑制图像频谱混叠并保持探测器调制传递函数。 Abstract： Rotating inclined optical parallel plate is a kind of optical microscanning method. In order to overcome rigorous requirement for size of optical parallel plate, a large step method of optical microseanning was proposed. Firstly, its effect on the image aliasing and modulation transfer function （MTF） of the detector was theoretically analyzed. Then, it was experimentally confirmed by quantitative comparison of super-resolution image quality. The results indicate that not only machining difficulty is reduced, but also the aliasing is restrained and the MTF is sustained by using the large step microscanning.

作者欧攀刘星孙鸣捷于康龙王治权

机构地区北京航空航天大学仪器科学与光电工程学院云南临沧鑫圆锗业股份有限公司

出处《激光技术》 CAS CSCD 北大核心 2013年第3期293-296,共4页 Laser Technology

基金教育部新世纪优秀人才支持计划资助项目

关键词成像系统微扫描大步长微扫描调制传递函数超分辨率图像 imaging system microscanning large step microscanning modulation transfer function super-resolution image

分类号 TN211 [电子电信—物理电子学]

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参考文献10

1FORNTIN J, CHEVRETI'E P, PLANTER. Evaluation of the mi-croscanning process [ J ]. Proceedings of SPIE, 1994,2269 : 271- 279.
2WILTSE J M, MILLER J L. lmage~ improvements in staring in- frared imagers by employing subpixel microscan [ J ]. Optics Engi- neering,2005,44- ( 5 ) :056401.
3FORNTIN J, CHEVRETTE P. Realization of a fast mieroscanning device for infrared focal plane arrays [ J ]. SPIE, 1996,2742 : 185- 196.
4SUI X B, BAIL F, CHEN Q,et al. Influencing faclors of mi- croscanning performance based on fat optical component[ J 1. Chi- nese Optics Letters,2011,9 ( 5 ) :052302.
5KRAPELS K, DRIGGERS R, VOLLMERHAUSEN R, et al. A performance comparison of rectangular(4-point) and diagonal( 2- point) dither[ J ]. Proceedings of SP1E, 2000,4030 : 151-169.
6屈惠明,陈钱.红外焦平面阵列微扫描成像方案比较[J].激光与红外,2006,36(3):161-164. 被引量：7
7WATSON E A, MUSE R A, BLOMMEL F P. Aliasing and blur- ring in microscanned imagery [ J ]. Proceedings of SHE, 1992, 1689:242-250.
8WANG X, ZHANG J, FENG Z, et al. Analysis of improvement a- mount of typical microscanning modes to IR imagery quality [ J ]. Infrared Physics & Technology,2005,46 ( 5 ) :412-417.
9FRIEDENBERG A. Microscan in infrared staring systems [ J ]. Optics Engineering, 1997,36 ( 6 ) : 1745-1749.
10CHEN H. Research of image quality assessment and restoration syste,n[ D ]. Shanghai: Shanghai Jiaotong University, 2010 : 22- 23

二级参考文献9

1E Watson,R Muse,F Blomme.Aliasing and blurring in microscanned imagery[ A ].Proc.SPIE,1992,1689:242-250.
2J Fortin,P Chevrette,R Plante.Evaluation of the microscanning process[ A].SPIE,1994,2269:271-279.
3John M Wiltse,John L Miller.Imagery improvements in staring infrared imagers by employing subpixel microscan[J].Optical Engineering,2005,44(5):056401-1-056401-9.
4K J Barnard,E A Watson,P F McManamon.Nonmechanical microscanning using optical space-fed phased arrays[ A].Proceedings of SPIE,1994,7 (2224):168-179.
5F P Blommel,P N J Dennis,Bradley,et al.the Effects of microscan operation on staring infrared sensor imagery[A].Proceedings of SPIE,1991,12(1540):653-664.
6K Awamoto,Y Ito,H Ishizaki,et al.Resolution improvement for HgCdTe IRCCD[ A ].SPIE,1992,1685:213-220.
7Jean Fortin,Paul Chevrette.Realization of a fast microscanning device for infrared focal plane arrays[A].SPIE,1996,2743:185-196.
8George R Armstrong,Paul D Packard.CMT and PtSi FLIR Systems for EUCLID RTP 8.1[A].SHE,1996,2774:257-266.
9W Cabanski,R Breiter,K-H Mauk.Miniaturized High Performance Starring Thermal Imaging System[A].Proceedings of SHE,2000,4028:208-219.

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2高美静,顾海华,关丛荣,吴伟龙.显微热成像系统自适应位置标定方法[J].光学学报,2013,33(1):69-74. 被引量：4
3关丛荣,高美静,金伟其,王吉晖.Optical micro-scanning location calibration of thermal microscope imaging system[J].Journal of Beijing Institute of Technology,2013,22(2):250-255.
4王忆锋,侯辉,冯雪艳.红外焦平面器件微扫描技术的发展[J].红外技术,2013,35(12):751-758. 被引量：6
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6郭良贤,周运义.基于聚焦透镜的微扫描应用[J].光学与光电技术,2014,12(6):70-73.

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7高美静,芦鑫,石晓丽.显微热成像系统行处理迭代超分辨力处理研究[J].光电工程,2011,38(9):35-39. 被引量：2
8刘文华,陈利平.一种基于视频的超分辨率图像生成方法研究[J].湖南师范大学自然科学学报,2015,38(2):56-61. 被引量：2
9徐超,金伟其,李雅琼,王霞.一种改进的凝视焦平面探测器亚像元成像处理算法[J].电子学报,2007,35(8):1608-1611. 被引量：5
10高美静,金伟其,王霞,于杰,陈艳.显微热成像系统帧间差分过采样重构研究[J].北京理工大学学报,2009,29(8):704-707. 被引量：4

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一种大步长的光学微扫描方法

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