一种光电器件加密方法的安全性分析

Encryption for optoelectronic devices

  • 摘要: 为了找到一种安全、高速的图像加密方法,通过计算明文和密文的信息熵、灰度值等参数,研究了利用光电器件,采用流密码和位平面分解相结合的加密方法的安全性和该方案的抗破译能力。结果表明,该方案中, 对含信息量越少的图像,加密后平均灰度变化值越大;这种灰度变换的加密方法掩盖了各像素点之间的相关性,密文像素点灰度随机分布,分析者无法获得明文图像的灰度分布状况,使得分析者无法通过相关度分析提取图像轮廓,有效隐藏重要信息。因此,该加密方法具有极高的安全性,同时应将密文平均灰度值作为评价参数之一。

     

    Abstract: In order to find a high speed secure encryption of image, an encryption based on bit planes division for optoelectronic devices is studied. The research focuses on the security and the ability against the invader of the encryption. The simulation results show that after encrypted, the information in the image is reduced, and the change of average gray-level of encryptedimage is larger. The results demonstrate the gray-level transform cancels the correlation among pixels of primary image, and the pixel distributes randomly, which makes invader hard to analyze correlation and find outline of the original image. Hence, this encryption has a high security, and the average gray-level of encrypted image is more suitable than the change of average gray-level.

     

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