基于光学隐藏视觉密码的欺骗追踪系统

吴承哲; 刘睿泽; 史祎诗

doi:10.7498/aps.73.20231721

摘要

提出了一种基于光学隐藏视觉密码的欺骗追踪系统. 该系统将秘密图像分解为多幅有实际意义的掩饰图像, 将其中一张掩饰图像嵌入脆弱水印, 作为检验密钥, 检验密钥单独传输. 然后将其余掩饰图像隐藏在相位密钥中, 进行传输时有很好的不可见性. 掩饰图像的像素排列若被不诚实的参与者篡改, 则称为欺骗图像. 将每张相位密钥分发给不同的参与者, 以保证在追踪到欺骗图像时可找到对应的欺骗者. 在提取过程中, 只需要对该相位密钥进行傅里叶变换, 即可得到掩饰图像. 检验时, 将检验密钥与任一掩饰图像进行非相干叠加, 以是否出现验证图像为条件, 就可检验掩饰图像是否被篡改, 以达到欺骗追踪的目的, 将数量大于等于门限k的掩饰图像和检验密钥进行非相干叠加即可得到秘密图像, 仿真实验结果表明, 该系统可应用于利用不可见视觉密码术传递实际信息时, 对内部欺骗者的追踪.

关键词:

Abstract

A deception tracking system based on optical hidden visual code is proposed. The system uses visual cryptography to decompose the secret image into a number of realistic masked images, which can be used to conceal the secret information. One of the masked images is embedded with a fragile watermark to ensure that it is not modified. This image serves as an inspection key to verify the other images, and the inspection key is transmitted separately. The rest of the camouflaged image is hidden in the phase key using the phase recovery algorithm, which ensures good invisibility during transmission. If the pixel arrangement of the masked image is tampered with by a dishonest participant, it is called a fraudulent image. Each phase key is distributed to different participants to ensure that the corresponding deceiver can be identified when the spoofing image is traced. In the extraction process, only the diffraction transformation of the phase key is needed to obtain the mask image. During the inspection, the inspection key is incoherently superimposed with any masked image, and the appearance of the verification image indicates whether the masked image has been tampered with, thereby achieving the purpose of deception tracking. The secret image can be obtained by incoherently superimposing the masking images, provided that the number of superimposed masking images is is greater than or equal to the threshold k, along with the inspection key. When the inspection key is superimposed with any masked image, if there is a spoofed image, no verification image will appear, and as a result, the secret image will not be restored. If there is no spoofed image, the verification image will appear, indicating that the secret image can be restored by covering all the images. The system can be used to track internal fraudsters when actual information is transmitted through invisible visual cryptography.

Keywords:

作者及机构信息

1.
河北工程大学数理科学与工程学院, 邯郸　056038

2.
中国科学院大学光电学院, 北京　100049

3.
中国科学院空天信息创新研究院, 北京　100094

通信作者: 史祎诗, shiyishi@ucas.ac.cn

基金项目: 国家重点研发计划(批准号: 2021YFB3602604)、国家自然科学基金(批准号: 62131011, 62075221, 61975205)、中国科学院科教融合项目、中国科学院大学和中央高校基本科研业务费资助的课题.

Authors and contacts

1.
School of Mathematics and Physics Science and Engineering, Hebei University of Engineering, Handan 056038, China

2.
School of Optoelectronics, University of Chinese Academy of Sciences, Beijing 100049, China

3.
Aerospace Information Research Institute, Chinese Academy of Sciences, Beijing 100094, China

Corresponding author: Shi Yi-Shi, shiyishi@ucas.ac.cn

Funds: Project supported by the National Key Research and Development Program of China (Grant No. 2021YFB3602604), the National Natural Science Foundation of China (Grant Nos. 62131011, 62075221, 61975205), the Fusion Foundation of Research and Education of Chinese Academy of Sciences, University of Chinese Academy of Sciences, and the Fundamental Research Funds for the Central Universities of China.

文章全文

参考文献

[1]	Khan M, Shah T 2014 3D Research 5 29 Google Scholar
[2]	Chen W, Javidi B, Chen X D 2014 Adv. Opt. Photonics 6 120 Google Scholar
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[20]	周新隆, 祝玉鹏, 杨栋宇, 张峻浩, 卢哲, 王华英, 董昭, 柯常军, 史祎诗 2021 物理学报 70 244201 Google Scholar Zhou X L, Zhu Y P, Yang D Y, Zhang J H, Lu Z, Wang H Y, Dong Z, Ke C J, Shi Y S 2021 Acta Phys. Sin. 70 244201 Google Scholar
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[23]	Yang N, Gao Q K, Shi Y S 2018 Opt. Express 26 31995 Google Scholar
[24]	Li Z F, Dong G Y, Yang D Y, Li G L, Shi Y S, Bi K, Zhou J 2019 Opt. Express 27 19212 Google Scholar
[25]	郁滨, 付正欣, 沈刚, 房礼国 2014 视觉密码 (合肥: 中国科学技术大学出版社) 第69页 Yu B, Fu Z X, Shen G, Fang L G 2014 Visual Cryptography (Vol. 1) (Hefei: University of Science and Technology of China Press) p69

施引文献

图 1 再现、检验、恢复过程

Fig. 1. Reproducing, verifying, and restoring process.

下载: 全尺寸图片幻灯片

图 2 分解、隐藏、嵌入脆弱水印过程

Fig. 2. Decomposition, hiding, embedding fragile watermarking process.

下载: 全尺寸图片幻灯片

图 3 当秘密图像、验证图像、掩饰图像相同位置的像素均为白色时的编码方案

Fig. 3. Encoding scheme when the pixels in the same position of secret image, verification image, and masking image pixels are all white.

下载: 全尺寸图片幻灯片

图 4 GS算法流程

Fig. 4. GS algorithm flow.

下载: 全尺寸图片幻灯片

图 5 嵌入脆弱水印流程

Fig. 5. Fragile watermark embedding process.

下载: 全尺寸图片幻灯片

图 6 提取脆弱水印图像流程

Fig. 6. Process of extracting fragile watermark image.

下载: 全尺寸图片幻灯片

图 7 欺骗追踪过程　(a) 检验密钥; (b) 被篡改像素排列顺序的欺骗图像; (c) 从相位密钥恢复的掩饰图像; (d) 检验密钥与欺骗图像叠加结果; (e) 检验密钥与掩饰图像叠加结果; (f) 无法恢复秘密图像的结果

Fig. 7. Spoofing tracking process: (a) Test key; (b) spoofing images with altered pixel arrangement order; (c) masking image recovered from phase key; (d) test key and spoofing image superposition result; (e) test key and masking image superposition result; (f) failure to recover secret image.

下载: 全尺寸图片幻灯片

图 8 脆弱水印功能验证　(a) 宿主图像; (b) 水印图像; (c) 嵌入脆弱水印的宿主图像; (d) 提取水印图像; (e) 0.01椒盐噪声攻击提取的水印; (f) 0.01高斯噪声攻击提取的水印; (g) 图像压缩后提取的水印; (h) 10×10像素裁剪攻击后提取的水印

Fig. 8. Fragile watermarking function verification: (a) Host image; (b) watermarked image; (c) host image embedded with fragile watermark; (d) extract watermark image; (e) watermark extracted by 0.01 salt and pepper noise attack; (f) watermark extracted by 0.01 Gaussian noise attack; (g) watermark extracted after image compression; (h) watermark extracted after 10×10 pixel cropping attack.

下载: 全尺寸图片幻灯片

图 9 获得秘密图像的过程　(a) 检验密钥; (b)从相位密钥恢复出的掩饰图像1; (c)从相位密钥恢复出的掩饰图像2; (d) 检验密钥和掩饰图像1叠加得到的验证图像; (e) 检验密钥和掩饰图像2叠加得到的验证图像; (f) 3张图像叠加恢复的秘密图像

Fig. 9. Process of obtaining secret image: (a) Test key; (b) masking image 1 recovered from phase key; (c) masking image 2 recovered from phase key; (d) the verification image obtained by superimposing the test key and the masking image 1; (e) verification images obtained by superimposing the test key and masking image 2; (f) the secret image recovered by superimposing three images.

下载: 全尺寸图片幻灯片

图 10 (a)—(f)分别为14, 16, 18, 20, 24, 30像素大小的字符图像信息

Fig. 10. (a)–(f) The character images information with the size of 14, 16, 18, 20, 24 and 30 pixels respectively.

下载: 全尺寸图片幻灯片

图 11 对掩饰图像进行加噪声处理后秘密图像的相关系数曲线

Fig. 11. Correlation coefficient curves of secret images after noise processing of masking image.

下载: 全尺寸图片幻灯片

[1]	Khan M, Shah T 2014 3D Research 5 29 Google Scholar
[2]	Chen W, Javidi B, Chen X D 2014 Adv. Opt. Photonics 6 120 Google Scholar
[3]	Liu S, Guo C L, Sheridan J T 2014 Opt. Laser Technol. 57 327 Google Scholar
[4]	Shi Y S, Situ G H, Zhang J J 2007 Opt. Lett. 32 1914 Google Scholar
[5]	Shi Y S, Situ G H, Zhang J J 2008 Opt. Lett. 33 542 Google Scholar
[6]	杨玉花, 史祎诗, 王雅丽, 肖俊, 张静娟 2011 物理学报 60 034202 Google Scholar Yang Y H, Shi Y S, Wang Y L, Xiao J, Zhang J J 2011 Acta Phys. Sin. 60 034202 Google Scholar
[7]	Shi Y S, Li T, Wang Y L, Gao Q K, Zhang S G, Li H F 2013 Opt. Lett. 38 1425 Google Scholar
[8]	Gao Q H, Wang Y L, Li T, Shi Y S 2014 Appl. Optics 53 4700 Google Scholar
[9]	刘祥磊, 潘泽, 王雅丽, 史祎诗 2015 物理学报 64 234201 Google Scholar Liu X L, Pan Z, Wang Y L, Shi Y S 2015 Acta Phys. Sin. 64 234201 Google Scholar
[10]	Chanana A, Paulsen A, Guruswamy S, Nahata A 2016 Optica 3 1466 Google Scholar
[11]	席思星, 于娜娜, 王晓雷, 朱巧芬, 董昭, 王微, 刘秀红, 王华英 2019 物理学报 68 110502 Google Scholar Xi S X, Yu N N, Wang X L, Zhu Q F, Dong Z, Wang W, Liu X H, Wang H Y 2019 Acta Phys. Sin. 68 110502 Google Scholar
[12]	王雪光, 李明, 于娜娜, 席思星, 王晓雷, 郎利影 2019 物理学报 68 240503 Google Scholar Wang X G, Li M, Yu N N, Xi S X, Wang X L, Lang L Y 2019 Acta Phys. Sin. 68 240503 Google Scholar
[13]	Machizaud J, Fournel T 2012 Opt. Express 20 22847 Google Scholar
[14]	Wu H C, Chang C C 2005 Comput. Stand. Interfaces 28 123 Google Scholar
[15]	Feng J B, Wu H C, Tsai C S, Chang Y F, Chu Y P 2008 Pattern Recognit. 41 3572 Google Scholar
[16]	Mishra A, Gupta A 2018 J. Inf. Optim. Sci. 39 631
[17]	Blundo C, Cimato S, Santis A D 2006 Theor. Comput. Sci. 369 169 Google Scholar
[18]	Chen Y F, Chan Y K, Huang C C, Tsai M H, Chu Y P 2007 Inf. Sci. 177 4696 Google Scholar
[19]	于韬, 杨栋宇, 马锐, 史祎诗 2020 物理学报 69 144202 Google Scholar Yu T, Yang D Y, Ma R, Shi Y S 2020 Acta Phys. Sin. 69 144202 Google Scholar
[20]	周新隆, 祝玉鹏, 杨栋宇, 张峻浩, 卢哲, 王华英, 董昭, 柯常军, 史祎诗 2021 物理学报 70 244201 Google Scholar Zhou X L, Zhu Y P, Yang D Y, Zhang J H, Lu Z, Wang H Y, Dong Z, Ke C J, Shi Y S 2021 Acta Phys. Sin. 70 244201 Google Scholar
[21]	Shi Y S, Yang X B 2017 J. Opt. 19 115703 Google Scholar
[22]	Shi Y S, Yang X B 2017 Chin. Phys. Lett. 34 114204 Google Scholar
[23]	Yang N, Gao Q K, Shi Y S 2018 Opt. Express 26 31995 Google Scholar
[24]	Li Z F, Dong G Y, Yang D Y, Li G L, Shi Y S, Bi K, Zhou J 2019 Opt. Express 27 19212 Google Scholar
[25]	郁滨, 付正欣, 沈刚, 房礼国 2014 视觉密码 (合肥: 中国科学技术大学出版社) 第69页 Yu B, Fu Z X, Shen G, Fang L G 2014 Visual Cryptography (Vol. 1) (Hefei: University of Science and Technology of China Press) p69

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基于光学隐藏视觉密码的欺骗追踪系统