RAmM Algorithm(Simplex)

TL;DR

The paper introduces the RAmM algorithm, a novel encryption method using genetic operations to produce unique, lossless image encryption and restoration, enhancing security without compromising image quality.

Contribution

It presents a new encryption algorithm based on genetic operations, specifically designed for image data, ensuring unique decryption keys and lossless image recovery.

Findings

Produces a unique fingerprint for each data-key pair

Enables lossless image encryption and restoration

Secures image data with high fidelity

Abstract

The evolution of encryption algorithms have led to the development of very complicated and highly versatile algorithms that sacrifice efficiency for better and harder to decrypt results. But by the application of a genetic schema to the encryption of data, a new structure can be created. Genetic methods and procedures are lethal in the way they handle and manipulate data. The RAmM algorithm uses four genetic operations that have been developed specifically for encryption of data. The operations are Replication, Augmentation, Mutation and Multiplication. The proper application of these methods according to the rules that have been found to be the best for getting optimal and correct results produces a "fingerprint" that is unique to a pair of <data , key>. This means that every single data entry can only be decrypted by using the correct set of key. The application of the RAmM algorithm is in the field of image encryption and restoration. The boundary and the pixel values are separately encrypted to produce a very genuine sequence that is never understood to be an image. The beauty of the procedure is that the entire image can be reproduced without any color loss or loss of pixel quality.