A New Diffusion Strategy Using an Epidemic Spreading Model for Encryption
Wei Zhang, Guangdong Zhu, Meng Xing, Jingjing Yang, Hai Yu, Zhiliang Zhu

TL;DR
This paper introduces a new encryption method inspired by how diseases spread, offering faster encryption and better security against attacks.
Contribution
A novel cryptography diffusion strategy based on an epidemic model and complex networks is proposed.
Findings
The proposed encryption algorithm is faster than traditional linear methods.
It effectively resists brute force, statistical, and differential attacks.
The method is robust against noise and data loss.
Abstract
The diffusion phenomenon that exhibits intrinsic similarities is pervasive in cryptography and natural systems, evident in liquid diffusion, epidemic spread, animal migration, and encryption techniques. In cryptography, bytes are systematically diffused in a sequential manner to encrypt the value of each byte in the plaintext in a linear fashion. In contrast, within an epidemic spreading model, the diffusion process can be represented within a complex, multilayered network, encompassing layers such as familial and social transmission dynamics. Transmission links establish connections both within and between individual layers. It has had a more rapid spread than linear approaches due to the particularization of non-linear transmission. In this study, the novelty of a cryptography diffusion strategy based on an epidemic model is first proposed, in which pixels and their dynamic adjacency…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsChaos-based Image/Signal Encryption · Wireless Communication Security Techniques · Cellular Automata and Applications
