Secure EEG signal transmission for remote health monitoring using optical chaos. Electro-optic delay devices with double feedback. Enhancement of chaos encryption potential by combining all-optical and electrooptical chaos generators. Hizanidis J, Deligiannidis S, Bogris A, et al. Digital key for chaos communication performing time delay concealment. Mismatch-induced bit error rate in optical chaos communications using semiconductor lasers with electrooptical feedback. Multiple-valued stationary state and its instability of the transmitted light by a ring cavity system. Performance analysis of photoelectric dispersion compensation technology based on Optisystem. Chaotic optical communication over 1000 km transmission by coherent detection. Research progress of chaotic secure optical communication. Nonlinear delayed differential optical phase feedback for high performance chaos communications// Conference on Lasers and Electro-Optics 2010. Chaos-based communication s at high bit rates using commercial fibre-optic links. Opt Commun Technol, 2021, 45(1): 22-27.Īrgyris A, Syvridis D, Larger L, et al. Research progress of high speed chaotic optical communication.
Optisystem 15 full series#
Chaotic laser parallel series synchronization and its repeater applications in secure communication. Numerical simulations show that the proposed method is feasible to simulate the optical feedback loop, and the simulation results are in good agreement with the theoretical values, which prove that the chaotic signal is generated.
Optisystem 15 full how to#
The article introduces how to use MATLAB and OptiSystem software to realize the co-simulation of chaotic systems. The electro-optic delay feedback loops are realized by the MATLAB program, and the signal transmission in optical fibers is completed in the OptiSystem software. The mature laser and binary sequence generation modules in OptiSystem software provide energy and input signals for the system. In this design, MATLAB and OptiSystem software are used to simulate the system, which solves the problem that OptiSystem software can't simulate the optical feedback loop. By injecting chaos into chaos, a more complex chaotic waveform is generated to enhance the chaotic complexity and the communication system confidentiality. An electro-optic intensity chaotic communication system is designed by combining two electro-optic delay feedback loops with parallel structures.
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