Abstract
Considering a nonlinear dynamic oscillator, a high Lyapunov exponent indicates a high degree of randomness useful in many applications, including cryptography. Most existing oscillators yield very low Lyapunov exponents. The proposed work presents a general strategy to derive an n-D hyperchaotic map with a high Lyapunov exponent. A 2D case study was analyzed using some well-known nonlinear dynamic metrics including phase portraits, bifurcation diagrams, finite time Lyapunov exponents, and dimension. These metrics indicated that the state of the novel map was more scattered in the phase plane than in the case of some traditional maps. Consequently, the novel map could produce output sequences with a high degree of randomness. Another important observation was that the first and second Lyapunov exponents of the proposed 2D map were both positive for the whole parameter space. Consequently, the attractors of the map could be classified as hyperchaotic attractors. Finally, these hyperchaotic sequences were exploited for image encryption/decryption. Various validation metrics were exploited to illustrate the security of the presented methodology against cryptanalysts. Comparative analysis indicated the superiority of the proposed encryption/decryption protocol over some recent state-of-the-art methods.
Highlights
Information and communication technologies are exponentially growing, and as a consequence the exchange of data is an ever-increasing necessity in diverse and sensitive areas such as medical imaging systems, financial transactions at banks, military communications, and confidential videoconferences, to name just a few
From the results it can be observed that, in the whole space of the control parameter, the proposed map presents a saturated diagram indicating that the map does not have windows of periodic dynamics
Such dynamics are very interesting for cryptography applications for medical images [41]
Summary
Christophe Magloire Lessouga Etoundi 1,2, Jean De Dieu Nkapkop 1,2 , Nestor Tsafack 3, Joseph Mvogo Ngono 4, Pierre Ele 5, Marcin Wozniak 6,* , Jana Shafi 7 and Muhammad Fazal Ijaz 8,*. Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations
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