An Enhanced Encryption Scheme Employing Laplace Transform, DNA Coding, and Truncated Polynomial Rings

Abstract

This research presents an advanced encryption algorithm, named LPDNA, which employs the algebraic structure of polynomial rings, the mathematical properties of the Laplace transform, and DNA coding as the foundation for key generation. The proposed algorithm features multi-structured keys, enhancing its resistance against various types of attacks while providing high and reliable performance. It is designed to secure data transmission in untrusted environments and over insecure communication channels, making it an effective solution to meet the increasing security demands of the digital age.