基于DCT的多门限渐进秘密图像分存方案

doi:10.3969/j.issn.1671-1122.2018.03.007

信息网络安全 ›› 2018, Vol. 18 ›› Issue (3): 54-62.doi: 10.3969/j.issn.1671-1122.2018.03.007

基于DCT的多门限渐进秘密图像分存方案

邵利平(), 乐志芳

陕西师范大学计算机科学学院,陕西西安 710119

收稿日期:2018-01-15 出版日期:2018-03-15 发布日期:2020-05-11
作者简介:
作者简介：邵利平（1978—）,男,山东,副教授,博士,主要研究方向为数字图像加密;乐志芳（1993—）,女,江西,硕士研究生,主要研究方向为图像分存。
基金资助:
国家自然科学基金[61100239];陕西省自然科学基金[2011JQ8009, 2016JM6065];中央高校基本科研业务费[GK201402036, GK201703057]

Multiple Thresholds Progressive Secret Image Sharing Scheme Based on DCT

Liping SHAO(), Zhifang LE

School of Computer Science, Shaanxi Normal University, Xi’an Shannxi 710119, China

Received:2018-01-15 Online:2018-03-15 Published:2020-05-11

摘要/Abstract

摘要：

图像分存是将密图拆分为影子图像,利用分发的部分或全部影子图像对密图进行完整重构,是目前图像信息安全的研究热点。但传统数字图像分存通常是由满足门限数量的影子图像对密图进行完整重构的,而在频域随着分发份额数量增加,实现对密图由模糊到清晰的整体渐进恢复的研究工作相对较少。基于此,文章提出一种基于DCT的多门限渐进秘密图像分存方案,在该方案中,首先结合随机参与值将密钥分存,将分发子密钥和参与值对应的MD5值公布防止参与者作弊;然后对秘密图像进行8×8 DCT变换,对分块DCT系数进行随机量化和指定码长分配表的2进制表示,按之字形扫描顺序和频带重组形成多个划分频带;最后在GF(2⁸)有限域下对频带进行多门限分存并重构分发影子图像。实验结果表明,当参与者的数量大于最低门限,则随着参与者数量的增加,文中方法可充分利用影子图像对秘密图像进行由模糊到清晰的渐进恢复且具备较好的视觉恢复质量,且得不到秘密图像的任何信息。文中策略严格依赖于密钥,并且恢复的结果趋于稳定。

关键词: 图像分存, 多门限, 渐进分存, 有限域, DCT

Abstract:

Image sharing usually splits the secret image into a series ofshadow images and the secret image can be completely recovered by partial or all distributed shadow images. It is the research hotspot in image security. But traditional image sharing usually used to construct the secret imagecompletely and the research providingthe whole progressive recovery of secret image from fuzzy to clear is relatively small.Based on this, a multiple thresholds progressive secret image sharing scheme based on DCT was proposed.First the key is shared in combination with the random participation value,the MD5 values corresponding to the sub-keys and participating values are published to prevent participants from cheating,then the secret image is transformed by 8x8 DCT where the DCT coefficients are randomly quantified and the binary representation of the assigned code length distribution table is presented to form multiple partition bands by zigzag scanning order and band reorganization.Finally, use multiple thresholds to sharing the band and reconstruct distribution shadow image in GF(2⁸) Galois field.The experimental results show that when the number of participants is greater than the minimum threshold, withthe number ofparticipant’sincreases, the proposed method can make use of the shadow image to make the whole progressive recovery of secret image from fuzzy to clearand the more participantsand the better visual recovery quality. Otherwise, there will not be any information on the secret image, and the strategy is strictly dependent on the key and the recovery results tend to be stable.

Key words: image sharing, multiple thresholds, progressive sharing, Galois field, DCT

中图分类号:

TP309

邵利平, 乐志芳. 基于DCT的多门限渐进秘密图像分存方案[J]. 信息网络安全, 2018, 18(3): 54-62.

Liping SHAO, Zhifang LE. Multiple Thresholds Progressive Secret Image Sharing Scheme Based on DCT[J]. Netinfo Security, 2018, 18(3): 54-62.

图/表 12

图1

图2

表1

表2

表3

图3

表4

图4

表5

图5

表6

图6

参考文献 15

[1]	肖迪,王莹,常燕廷,等.基于加法同态与多层差值直方图平移的密文图像可逆信息隐藏算法[J].信息网络安全,2016(4):9-16.
[2]	熊金波, 马蓉, 张媛媛,等. 面向社交网络的图片信息隐藏方法与实现[J]. 信息网络安全, 2017(3):6-13.
[3]	SHAMIR A.How to Share a Secret[J]. Communications of the Association for Computing Machinery, 1979, 22(11):612-613.
[4]	BLAKLEY G R.Safeguarding Cryptographic Keys[C]//IEEE. Managing Requirements Knowledge, International Workshop on (1979),June 4-7, 1979,New York .New York: IEEE, 1979: 313-317.
[5]	THIEN C C,LIN J C.Secret Image Sharing[J]. Computers & Graphics, 2002, 26(5):765-770.
[6]	KANSO A, GHEBLEH M. Anefficient (t n)-threshold Secret Image Sharing Scheme[EB/OL]. , 2016-10-15.
[7]	WANG R Z, SHYU S J.Scalable Secret Image Sharing[J]. Signal Processing Image Communication, 2007, 22(4):363-373.
[8]	LIN Y Y, Wang R Z.Scalable Secret Image Sharing With Smaller Shadow Images[J]. IEEE Signal Processing Letters, 2010, 17(3):316-319.
[9]	YANG C N,HUANG S M.Constructions and Properties of k out of n Scalable Secret Image Sharing[J].Optics Communications, 2010, 283(9):1750-1762.
[10]	YANG C N, CHU Y Y.A General ( k, n ) Scalable Secret Image Sharing Scheme with the Smooth Scalability[J]. Journal of Systems & Software, 2011, 84(10):1726-1733.
[11]	LIU Y X, YANG C N, YEH P H.Reducing Shadow Size in Smooth Scalable Secret Image Sharing[J]. Security & Communication Networks, 2014, 7(12):2237-2244.
[12]	LEE J S, CHEN Y R.Selective Scalable Secret Image Sharing with Verification[J]. Multimedia Tools & Applications, 2017, 76(1):1-11.
[13]	CHEN S K,LIN J C.Fault-tolerant and Progressive Transmission of Images[J]. Pattern Recognition, 2005, 38(12):2466-2471.
[14]	LIU W,WANG A,CHANG C C, et al.A Grouped-scalable Secret Image Sharing Scheme[J]. Multimedia Tools & Applications, 2015, 74(17):7095-7109.
[15]	欧阳显斌,邵利平,乐志芳. 非等量备份和双认证自修复有限域图像分存[J]. 软件学报,2017,28(12):3306-3346.

基于DCT的多门限渐进秘密图像分存方案

Multiple Thresholds Progressive Secret Image Sharing Scheme Based on DCT

RichHTML

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

图/表 12

参考文献 15

相关文章 7

编辑推荐

Metrics

本文评价

[1]	张言胜, 汪学明, 仇各各. 一种新的动态门限数字签名方案研究[J]. 信息网络安全, 2016, 16(6): 62-67.
[2]	宋衍, 周庆, 张国双, 王馨. 一种基于数据库服务的密文检索实现[J]. 信息网络安全, 2015, 15(9): 10-14.
[3]	杨婧, 范梦迪, 高雄智, 任延珍. 一种改进的MP3被动篡改定位检测算法[J]. 信息网络安全, 2014, 14(10): 7-10.
[4]	张震天;陈持协;王标. 基于有限域GF（2n）上圆锥曲线的群签名方案[J]. , 2013, 13(10): 0-0.
[5]	曾庆怡;张明武;张金霜. 基于GPU的域乘法并行算法的改进研究[J]. , 2013, 13(1): 0-0.
[6]	印晓天. 一种基于多项式的代理保护代理签名体制研究[J]. , 2012, 12(5): 0-0.
[7]	刘海清;陆洪毅;童元满. 基于随机掩码的AES算法抗DPA攻击硬件实现[J]. , 2008, 8(11): 0-0.