500万像素虹膜识别镜头设计

吴锦昇; 林峰

doi:doi:10.5768/jao201738.0205004

应用光学, 2017, 38 (2): 292, 网络出版: 2017-04-18

500万像素虹膜识别镜头设计

Design of 5 mega-pixel imaging lens for iris recognition

论文大纲

吴锦昇 ^*林峰

作者单位

福建师范大学光电与信息工程学院, 医学光电科学与技术教育部重点实验室, 福建省光子技术重点实验室, 福建福州 350007

光学设计非球面虹膜镜头电视畸变 optical design asphere imaging lens of iris TV distortion

摘要

随着虹膜识别技术的深入研究, 虹膜识别技术有望在移动支付领域被广泛运用。针对目前虹膜识别镜头体积和质量较大, 使用Zemax光学设计软体设计一款三片式非球面结构紧凑的500万像素虹膜识别镜头。该镜头工作距离是170 mm ~250 mm, F#为3, 镜头总长为4.43 mm, 光学畸变小于2%, TV畸变小于0.5%, 相对照度最低大于0.6。匹配使用APTINA公司一款0.635 cm(1/4英寸)CMOS,奈奎斯特频率为357 lp/mm,在1/2奈奎斯特频率处MTF均大于0.2, 总像素可达到500万像素。最后对镜头进行了像质评价和容差分析, 结果表明, 该镜头满足各项光学指标要求。

Abstract

With deep research, iris recognition technology is expected to be widely used in field of mobile payment. In view of big volume and quality of current iris recognition lens, Zemax optical design software is used to design compact 5 mega-pixel iris recognition lens composed of three-piece non-spherical structure. Lens working distance is 170 mm ~ 250 mm, F number is 3, total length of lens is 4.43 mm, optical distortion is less than 2%, TV distortion is less than 0.5%, relative illumination is less than 0.6. Matching 1/4" CMOS made by APTINA, Nyquist frequency of 357 lp / mm, at 1/2 Nyquist frequency, MTF are greater than 0.2, total pixel can reach 5 mega-pixel. Image quality evaluation and tolerance are analyzed. Results show that lens meet optical requirements.

参考文献

[1] 刘雅丽, 王敏, 黄木旺. 高精度虹膜识别光学镜头的研制［J］. 应用光学, 2012,33(3): 575-579.

Liu Yali, Wang Min, Huang Muwang. Iris identification optical lens with high precision［J］. Journal of Applied Optics, 2012,33(3): 575-579.

[2] 沈沉. 红膜识别技术的研究［D］. 杭州: 浙江大学, 2004: 1-26.

Shen Chen. Study of iris recognition ［D］. Hangzhou: Zhejiang University, 2004: 1-26.

[3] 韩民, 彭玉华, 张顺利,等. 基于经验模态分解的虹膜识别［J］. 光学学报, 2010,30(2): 364-368.

Han Min, Peng Yuhua, Zhang Shunli, et al. Iris recognition based on empirical mode decomposition［J］. 2010,30(2): 364-368.

[4] 李晓彤, 岑兆丰.几何光学像差光学设计［M］. 杭州: 浙江大学出版社,2007: 186-192.

Li Xiaotong, Cen Zhaofeng. Geometrical optics, aberrations and Optical design［M］. Hangzhou: Zhejiang University Press,2007: 186-192.

[5] Laikin M. Lens design［M］. Boca Raton: Taylor & Francis Group CRC Press,2007: 1-40.

[6] 黄航星, 金伟民,鲁丁. 一款超薄非球面手机镜头设计［J］. 应用光学, 2010,31(3): 366-368.

Huang Hangxing, Jin Weiming, Lu Ding. Thin aspheric lens for mobile phone［J］. Journal of Applied Optics, 2010,31(3): 366-368.

[7] 林峰. 对称型光学系统在小型化超短景深动物皮层组织观察系统的应用［J］. 光子学报, 2009,38(11): 2886-2889.

Lin Feng. Application of the symmetric optical system to the miniaturized, ultra-shallow depth of field system for the animal brain’s cortex［J］. Acta Optica Sinica, 2009,38(11): 2886-2889.

[8] 张继艳, 黄元庆, 熊飞兵,等. 短焦距超广角镜头的光学设计［J］. 激光与光电子学进展, 2013,50(10): 102202.

Zhang Jiyan, Huang Yuanqing, Xiong Feibing,et al. Optical lens design with short-focus and ultra-wide FOV［J］. Laser & Optoelectronics Progress, 2013,50(10): 102202.

[9] 尹志东, 向阳,高健, 等. 1300W像素手机镜头设计［J］. 激光与光电子学进展, 2014,51(1): 012202.

Yin Zhidong, Xiang Yang, Gao Jian,et al. Optical design of a 1300 Megapiexl mobile phone camera lens optics design［J］. Laser & Optoelectronics Progress, 2014,51(1): 012202.

[10] 于艇, 迟名晨,李艳红, 等. 1300万像素折衍混合式手机镜头设计［J］. 长春理工大学学报, 2015,38(6): 5-10.

Yu Ting, Chi Mingchen, Li Yanhong,et al. The design of hybrid diffraction-refraction 13 mega-pixel mobile phone lens［J］. Journal of Changchun University of Science and Technology, 2015,38(6): 5-10.

吴锦昇, 林峰. 500万像素虹膜识别镜头设计[J]. 应用光学, 2017, 38(2): 292. Wu Jinsheng, Lin Feng. Design of 5 mega-pixel imaging lens for iris recognition[J]. Journal of Applied Optics, 2017, 38(2): 292.

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