西南师范大学学报(自然科学版)
西南師範大學學報(自然科學版)
서남사범대학학보(자연과학판)
JOURNAL OF SOUTHWEST CHINA NORMAL UNIVERSITY
2014年
11期
81-89
,共9页
彩色图像%无损加密%离散余弦变换%混沌序列%信息安全
綵色圖像%無損加密%離散餘絃變換%混沌序列%信息安全
채색도상%무손가밀%리산여현변환%혼돈서렬%신식안전
color image%encryption algorithm%discrete cosine transform%chaotic series%information security
为了保证图像在传输过程中的可靠性和安全性,针对传统多通道加密算法无法实现同步加密、传输负载大等不足,提出了一种基于单通道 RGB 分量的彩色图像加密算法。首先引入离散余弦变换和 ZigZag 置换产生彩色图像 RGB 分量的复数矩阵,并采用 logistic 混沌映射对复数矩阵置乱,然后采用反向离散余弦变换和混沌掩码对RGB 分量进行重构和加密,产生密文图像,最后采用仿真实验测试算法的性能。仿真结果表明,相对于其它彩色图像加密算法,本文加密算法具有很好的雪崩、混乱与扩散特性,加密和解密速度快,可以抵抗各种攻击和保证彩色图像加密的安全性,具有一定的实用价值。
為瞭保證圖像在傳輸過程中的可靠性和安全性,針對傳統多通道加密算法無法實現同步加密、傳輸負載大等不足,提齣瞭一種基于單通道 RGB 分量的綵色圖像加密算法。首先引入離散餘絃變換和 ZigZag 置換產生綵色圖像 RGB 分量的複數矩陣,併採用 logistic 混沌映射對複數矩陣置亂,然後採用反嚮離散餘絃變換和混沌掩碼對RGB 分量進行重構和加密,產生密文圖像,最後採用倣真實驗測試算法的性能。倣真結果錶明,相對于其它綵色圖像加密算法,本文加密算法具有很好的雪崩、混亂與擴散特性,加密和解密速度快,可以牴抗各種攻擊和保證綵色圖像加密的安全性,具有一定的實用價值。
위료보증도상재전수과정중적가고성화안전성,침대전통다통도가밀산법무법실현동보가밀、전수부재대등불족,제출료일충기우단통도 RGB 분량적채색도상가밀산법。수선인입리산여현변환화 ZigZag 치환산생채색도상 RGB 분량적복수구진,병채용 logistic 혼돈영사대복수구진치란,연후채용반향리산여현변환화혼돈엄마대RGB 분량진행중구화가밀,산생밀문도상,최후채용방진실험측시산법적성능。방진결과표명,상대우기타채색도상가밀산법,본문가밀산법구유흔호적설붕、혼란여확산특성,가밀화해밀속도쾌,가이저항각충공격화보증채색도상가밀적안전성,구유일정적실용개치。
In order to ensure the safety and reliability of image transmission ,a novel encryption of color im‐age algorithm based on single channel RGB components has been studies in this paper ,to solve the prob‐lem which traditional multi‐channel algorithms cannot synchronous encryption and large load . Firstly , RGB components of color image have been extracted ,plural matrix obtained by the discrete cosine trans‐form and ZigZag ,and complex matrix scrambled by the logistic chaos ;secondly ,inverse discrete cosine transform and chaos masking have been used to reconstruction and encryption RGB component to obtain crypt image ;finally ,the performance has been tested by simulation experiments .The results show that , compared with other color image encryption algorithms ,the proposed algorithm has some good characteris‐tics such as good confusion and diffusion properties ,decryption speed ,can resist various attacks and can effectively guarantee the security of image encryption ,so it has a certain practical value .