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Time-delay signature concealing electro-optic chaotic system with multiply feedback nonlinear loops

Jiachen Bai, Hongxiang Wang, Yuefeng Ji

2020Optics Express35 citationsDOIOpen Access PDF

Abstract

A novel time-delay signature (TDS) concealing electro-optic (EO) chaotic system with multiply feedback nonlinear loops is proposed and analyzed by numerical simulation. The proposed system employs mutual injection structure implemented by two asymmetric branches named as multiply feedback nonlinear loop which introduces an extra nonlinear factor to the system dynamic equation. The complexity of the chaos system is increased by introducing this multiply feedback nonlinear loop. The permutation entropy (PE) of the proposed system is improved to higher than 0.96 when feedback strength ( β ) equals 5. The proposed system can enter to chaos regime with a small β ( β = 0.8). The TDS is concealed effectively due to the extra nonlinear factor introduced by multiply feedback nonlinear loop. Meanwhile, key-space of the proposed system is about 10 12 times that of the classical EO system because more tunable time delay parameters are introduced. Furthermore, the performance of a secure communication system based on the proposed chaotic system is discussed, and the simulation results show that the system is sensitive to time delay parameters and robust to feedback strength, which proves the proposed system is suitable for secure communication.

Topics & Concepts

Nonlinear systemControl theory (sociology)ChaoticComputer scienceFeedback loopSecure communicationPhysicsOperating systemEncryptionArtificial intelligenceComputer securityControl (management)Quantum mechanicsChaos control and synchronizationNonlinear Dynamics and Pattern FormationNonlinear Photonic Systems
Time-delay signature concealing electro-optic chaotic system with multiply feedback nonlinear loops | Litcius