期刊文献+

光学微扫描显微热成像系统超分辨力图像处理方法研究 被引量:1

Superresolution image processing for optical microscanning thermal microscope imaging system
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摘要 为提高已研制光学微扫描显微热成像系统的空间分辨力,基于改进的频域图像配准技术和凸集投影超分辨力算法,提出了显微热成像系统光学微扫描超分辨力图像处理方法。给出了该方法的原理及步骤,采用不同重构方法行了仿真研究,给出了评价参数和结论。利用光学微扫描显微热成像系统采集低分辨力显微热图像序列进行了超分辨力处理实验,实验结果表明本文提出方法的有效性,光学微扫描显微热成像系统的空间分辨力得到提高从而可满足需要高分辨力显微热分析的场合。该方法还可以应用于其它不可控光学微扫描成像系统中,具有广泛的应用前景。 In order to improve the spatial resolution of the designed optical plate rotating microscanning thermal microscope imaging system,based on the improved frequency-domain image registration techniques and projections onto convex sets(POCS),a method of optical microscanning superresoluion reconstruction for the thermal microscope imaging system was presented.The working principle and the method were analysised.Different reconstruction methods were applied to reconstruct the visible image,moreover the evaluation parameters were given.Results of simulation and real thermal microscope images processing showed the availability of the method.The image spatial resolution and quality were improved and the detail was more.The system can be applied into many systems which need high spatial resolution minute thermal analysis.The algorithm can also be applied into the uncontrolled optical microscanning imaging systems and has wide application prospect.
出处 《燕山大学学报》 CAS 2011年第1期69-73,共5页 Journal of Yanshan University
基金 河北省自然科学基金资助项目(F2010001268 F2010001286) 燕山大学博士基金资助项目(B431) 秦皇岛市科学技术研究与发展计划资助项目(200901A024)
关键词 成像系统 显微热成像 超分辨力 光学微扫描 图像配准 imaging systems thermal microscope imaging systems superresolution optical microscanning image registration
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参考文献7

  • 1Liu Chang. A proposal to acquire amicro thermal imaging micro- scope [R]. Urbana: University of Illinois, 2003.
  • 2高美静,金伟其,王霞,徐超,陈翼男.高分辨力光学微扫描显微热成像系统设计与实现[J].仪器仪表学报,2009,30(5):1037-1041. 被引量:15
  • 3Park S C, Park M K, Kang M G struction: a technical review [J] 2003,20 (3): 21-36 Super-resolution image recon- Signal Processing Magazine,.
  • 4张楠,金伟其,苏秉华,刘扬阳.高分辨力红外热图像重建算法的进展及研究[J].兵工学报,2005,26(2):173-176. 被引量:11
  • 5Vandewalle E Stisstrunk S, Vetterli M. A frequency domain approach to registration of aliased images with application to super-resolution [J]. EURASIP Journal on applied signal process- ing, 2006: 1-14.
  • 6Trussell H J,Civanlar M R.The feasible solution in signal restoration [J].IEEE Transactions on Acoustics, Speech,and Signal Processing, 1984,32 (2): 201-212.
  • 7Youla D C, Webb H. Image restoration by the method ofconvex projections: part 1 theory [J]. IEEE Transactions on Medical Im- aging, 1982,1 (2): 81-94.

二级参考文献15

  • 1邢素霞,张俊举,常本康,钱芸生.非制冷红外热成像技术的发展与现状[J].红外与激光工程,2004,33(5):441-444. 被引量:88
  • 2何小琦,费庆宇.半导体器件与IC失效分析的有力工具——介绍显微红外热像仪InfraScope和光辐射显微镜EMM1630[J].电子产品可靠性与环境试验,1996,14(2):58-59. 被引量:10
  • 3吴新社,蔡毅.红外凝视成像系统中的光学微扫描技术[J].红外与毫米波学报,2007,26(1):10-14. 被引量:28
  • 4WANG H, DINWIDDIE R B, MALEKI H. IR imaging of integrated circuit power transistors during operation [ J ]. Proc. of Spie, 4710, 2002:80-87.
  • 5GAO M J, JIN W Q. Digital thermal microscope imaging system for semiconductor device and IC invalidation analysis[ J]. Spie, 2007,6621 : 1-8.
  • 6BILMMEL F P, DENNIS P N J. The effects of microscanning operation on staring infrared sensor imagery [J]. SPIE, 1991,1540:653-664.
  • 7GILLETTE J C. Aliasing reduction in staring infrared imagers utilizing sub-pixel techniques [ J ]. Optical Engineering, 1995,34( 11 ) :3130-3137.
  • 8FORTIN J, CHEVERE P. Realization of fast microscanning device for infrared focal plane [ J ]. SPIE proceedings, 1996,2743 : 185-196.
  • 9CASTLEMANKR.数字图像处理[M].北京:电子工业出版社,2002..
  • 10William R R, Denise M T. Sensor expansion through integration of microscanning and super-resolution algorithms[J]. SPIE,2001, 4373:117-131.

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