Abstract
— In this study, a new method has been eliciting for encoding 2D and 3D color images. The DNA strand construction was used as the basis for structuring the method. This method consisted of two main stages, the encryption and decryption stages. As each stage includes several operations to reach the desired goal. In the coding stage, a special table was prepared to show the mechanism of work. It starts with encoding the DNA bases into two binary orders, then two zeros are added to the string to finally consist of four binary bits whose size is parallel to the representation of a set of hexadecimal numbers represented in binary, where the XOR operation is then done between the two values to be the result is completely different from the original code. Then the binary values we obtained are converted to decimal values that are placed in an array with the same size as the image to be encoded. Finally, this last array was processed with the exponential function factor, so the final result is a 100% encoded image. In the decoding stage, another algorithm was built that reflects the work of what preceded it in the encryption stage, where the result was an exact copy of the original image. It is worth noting that standard images of different sizes were used as testing images. The performance evaluation of the method was calculated based on several factors: MSE, peak PSNR, and the time required to perform the encoding and decoding process. The method achieved good results when compared with the results of other methods in terms of quality and time.
Highlights
To introduce more biological operations, this article uses the principle of DNA strand displacement to select a stable DNA structure
Nunna and Marapareddy [29] proposed a new system that used both cryptography and steganography techniques by using XOR operation to encrypt text and insert it into the image based on chosen key
The DNA is attributed to the pixel properties of the image. This procedure makes it more secured. From the results, it was obtained the strong encryption of color images by using the DNA rule bases and the rest of the functions of the coded rules
Summary
The interchange of data in the era of the internet has resulted in a rapid increase in the amount of information sent and received. The sending information via the internet has made life easier, it faces a significant challenge: secure data transfer [1, 2]. This is entirely attributable to the annual increase in the number of hacking and intrusion incidents. To introduce more biological operations, this article uses the principle of DNA strand displacement to select a stable DNA structure. In recent years, it has increased biological operations and biological significance, increased the relevance of keys and plain text, and improved randomness
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