基于双重模型的微光像增强器分辨力

史继芳; 杨斌; 韩占锁; 解琪; 孙宇楠

doi:10.3788/OPE.20132109.2260

您当前的位置：

首页 >

文章列表页 >

基于双重模型的微光像增强器分辨力

现代应用光学 | 更新时间：2020-08-12

- 基于双重模型的微光像增强器分辨力
- Objective Evaluation for Low-Light-Level Image Intensifier Based on Dual-Model
- 光学精密工程 2013年21卷第9期页码：2260-2265
- 作者机构：
  
  西安应用光学研究所，陕西西安 710065
- 作者简介：
- 基金信息：
- DOI：10.3788/OPE.20132109.2260
  中图分类号： TN144;TN223
- 收稿日期：2012-12-24，
  
  修回日期：2013-05-13，
  
  网络出版日期：2013-09-30，
  
  纸质出版日期：2013-09-15
- 稿件说明：
移动端阅览
史继芳杨斌韩占锁解琪孙宇楠. 基于双重模型的微光像增强器分辨力[J]. 光学精密工程, 2013,21(9): 2260-2265

SHI Ji-fang YANG Bin HAN Zhan-suo XIE Qi SUN Yu-nan. Objective Evaluation for Low-Light-Level Image Intensifier Based on Dual-Model[J]. Editorial Office of Optics and Precision Engineering, 2013,21(9): 2260-2265
史继芳杨斌韩占锁解琪孙宇楠. 基于双重模型的微光像增强器分辨力[J]. 光学精密工程, 2013,21(9): 2260-2265 DOI： 10.3788/OPE.20132109.2260.

SHI Ji-fang YANG Bin HAN Zhan-suo XIE Qi SUN Yu-nan. Objective Evaluation for Low-Light-Level Image Intensifier Based on Dual-Model[J]. Editorial Office of Optics and Precision Engineering, 2013,21(9): 2260-2265 DOI： 10.3788/OPE.20132109.2260.

摘要

以光学调制度模型和归一化互相关模型为基础，以模板匹配和光学调制度双重判据为核心算法，研究了微光像增强器分辨力的客观评价方法，构建了微光像增强器分辨力客观评价系统。光学调制度模型和归一化互相关模型既互相独立又相辅相成。首先，利用归一化互相关模型中的模板匹配系数进行定位和初步评价；然后，用光学调制度模型进行定量分析。这种先定性后定量的图像处理模式提高了微光像增强器分辨力测量的准确性和重复性，实现了对微光像增强器分辨力客观、准确的评价，避免了目视观察法受人的主观因素影响的弊端。实验结果表明，由CCD采集得到的微光像增强器分辨力与人眼观测结果具有较好的一致性，提高了本评价方法的客观性和准确性，该方法也可推广至CCD、ICCD、EMCCD等可见光探测成像系统分辨力的客观评价。

Abstract

On the basis of an optical modulation model and a normalized correlation model

an objective evaluation method for the resolution of a low-light-level image intensifier was explored by using the dual criterion of template matching and optical modulation as core algorithms. A set of resolution objective evaluation system for the low-light-level image intensifier was constructed. In the method

the optical modulation model and the normalized correlation model are independent of each other and also cannot be separated from each other. Firstly

the template matching coefficients in the normalized correlation model were used to performed the location and preliminary evaluation

then the optical modulation model was taken to do a quantitative analysis. The image processing scheme in first qualitative analysis then the quantitative analysis improves the accuracy and repeatability of resolution test for the low-light-level image intensifier

implements the objective and accurate evaluation for low-light-level image intensifier and avoids the shortcomings of visual observation method which is influenced by human's subjective factors. The experiments demonstrate that the resolution of the image captured by CCD has good consistency with that of visual observation result by human eyes. The method is also suitable for the evaluation of resolutions of other visible light imaging systems.

关键词

Keywords

references

向世明, 倪国强. 光电子成像器件原理[M]. 北京: 国防工业出版社, 1999.XIANG SH M, NI G Q. The Principle of Photoelectronic Imaging Devices[M]. Beijing: National Defense Industry Press, 1999.[2]程耀进，向世明，师宏立.三代微光像增强器分辨力计算理论模型[J]. 应用光学，2007(5)：63-66.CHENG Y J, XIANG SH M, SHI H L. Theoretical model for resolution calculation of third generation image intensifiers [J]. Journal of Applied Optics,2007(5)：63-66.(in Chinese)[3]艾克聪.微光夜视技术的进展和发展[J].应用光学，2006，27(4)：303-307.AI K C. The progress and development of night vision technology[J].Journal of Applied Optics,2006，27(4)：303-307.[4]ESTRERA J P. Low light level limiting resolution of various digital imaging and image intensified systems [J]. SPIE, 2009，7326：1-17.[5]刘正云，谭谦，苏建刚,等.微光夜视仪分辨力客观评价判据研究[J].兵工学报，2000，21(2):54-57.LIU ZH Y, TAN Q, SU J G, et al.. Objective evaluation criterion for the resolution of low-light-level night vision system [J]. Acta Armament Arll,2000,21(2):54-57. (in Chinese)[6]苏大图，沈海龙,等.光学测量与像质鉴定[M].北京：北京工业学院出版社,1988.SU D T, SHEN L H, et al.. Optical Measurement and Identification of Image Quality[M]. Beijing: Beijing Institute of Technology Press, 1998.[7]向世明.双近贴聚焦微光像增强器分辨力理论极限问题研究[J].应用光学，1988，29(3)：351-353.XIANG SH M. Theoretical resolution limit of double-proximity focusing image intensifiers[J]. Journal of Applied Optics,1988，29(3)：351-353.(in Chinese)[8]刘正云, 金伟其, 黄艳俊,等.微光分辨力测试图像计算机仿真研究[J].红外技术，2004(4):55-58.LIU ZH Y, JIN W Q, HUANG Y J, et al.. Computer simulation of resolution bars image in the measurement of low light level image system [J]. Infrared Technology,2004(4):55-58. (in Chinese)[9]党丽苹，戴炳明，唐树刚.光学系统分辨率自动检测的研究[J].光子学报，1995(3):278-281.DANG L P, DAI B M, TANG SH G. Research on the auto-detecting resolution of optical system[J].1995(3):278-281. (in Chinese)[10]GLYNN E F. USAF 1951 and microcopy resolution test charts and pixel profiles [J]. Photonics Spectra, 1999:183-189.[11]CHRZANOWSKI K. Testing of military optoelectronic system [J]. Opto-Electronics Review,2001,9(4):377-384.[12]BRIAN A, KEITH A N, GARTH J W, et al.. Keyhole coherent diffractive imaging [J]. Natural physics,2008:1-5.[13]GONCALVES D P, GRIFFITH D J. Estimating uncertainty in resolution tests [J].Optical Engineering,2006,45(5)，1-6.[14]何斌，马天予,等.Visual C++数字图像[M].北京：人民邮电出版社,2004.HE B, MA T Y, et al.. The Visual C + + Digital Image[M].Beijing: Post & Telecom Press, 2004.

浏览量

173

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

采用多特征共生矩阵的模板匹配

面向机翼线缆支架的装配符合性视觉检测

基于双目结构光周视扫描的3D件三维重构与位姿估计研究

重叠分数与匹配矩阵驱动的部分重叠点云配准网络设计

基于Snell窗及偏振模式的水下载体航姿测量