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Effect of External Perturbation and System Parameters on Optical Secure Communication Models

  • Jiuli Yin EMAIL logo , Mengjiao Tian , Xiangchun Duan and Yongfen Zhang
Published/Copyright: January 24, 2019
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Journal of Optical Communications
From the journal Journal of Optical Communications Volume 42 Issue 1

Abstract

Chaotic signals are regarded as secure carriers for communication due to its high sensitivity to parameter and initial condition perturbations. This paper studies the problem of optical secure communication modeled by the perturbed nonlinear Schrödinger equation. First, we prove that the chaotic signal can be easily produced from the optical soliton signal when external perturbations are executed to the Schrodinger equation. Chaos synchronization is then proved to be accomplished between the derived system and the original system which are different in the first-order derivative terms. Furthermore, we analyze the effects of system parameters on the chaos synchronization. Numerical results show that smaller differences can lead to more rapid synchronization. We also find that changing system parameters can affect the speed of chaos synchronization.

Keywords: nonlinear Schrödinger equation; optical secure communication; chaos synchronization

Acknowledgements:

This work is supported by the National Nature Science Foundation of China (No. 11101191), the Natural Science Foundation of Jiangsu Province (No. SBK2015021674) and it is also sponsored by Qin Lan Project.

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Received: 2018-03-25
Accepted: 2019-01-03
Published Online: 2019-01-24
Published in Print: 2021-01-27

© 2019 Walter de Gruyter GmbH, Berlin/Boston

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https://doi.org/10.1515/joc-2018-0048
Keywords for this article
nonlinear Schrödinger equation; optical secure communication; chaos synchronization

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Experimental, Characterization and Optimization of the Pumping Power of an EDFA by a QPDSF Configuration
  4. Study of Chaos Control of a Dual-Ring Erbium-Doped Fiber Laser Using Parameter Method
  5. Devices
  6. Low Input Power an All Optical 4 × 2 Encoder based on Triangular Lattice Shape Photonic Crystal
  7. Effect of Multiwalled Carbon Nanotube Reinforcement on the Opto-Electronic Properties of Polyaniline/c-Si Heterojunction
  8. Design and simulation of an all optical 8 to 3 binary encoder based on optimized photonic crystal OR gates
  9. Investigation of 2D-PC Ring Resonator-Based Demultiplexer for ITU-T G.694.1 WDM Systems
  10. Concave Rectangle Photonic Crystal Ring Resonator for Ultra-Fast All-Optical Modulation
  11. Soliton Pulse Generation for WDM-Based Free Space Optics Communication Using Microring Resonators
  12. Fibers
  13. Theory of Dispersion Reduction in Plastic Optical Gratings Fiber
  14. Efficient Routing Strategies of N × N RM-OXC Using C Band Based on T-FBG and OC
  15. Backbone Optical Fiber Analysis at 1310 nm and 1550 nm
  16. Networks
  17. Investigation of Blocking Performance in GMPLS Networks
  18. Identification of a Malicious Optical Edge Device in the SDN-Based Optical Fog/Cloud Computing Network
  19. Receiver
  20. New Structure of CCR with an AOANN Threshold
  21. Performance Enhancement of HAP-Based Relaying M-PPM FSO System Using Spatial Diversity and Heterodyne Detection Receiver
  22. Systems
  23. Review of LiFi Technology and Its Future Applications
  24. The Improved Optical Heterodyne Scheme for RoF Systems Based on Optical Carrier Suppression and Optical Injection Locking Techniques
  25. Effect of External Perturbation and System Parameters on Optical Secure Communication Models
  26. Development and Performance Improvement of a New Two-Dimensional Spectral/Spatial Code Using the Pascal Triangle Rule for OCDMA System
  27. Theory
  28. A Heavy Load Optimized Dynamic Bandwidth Allocation Algorithm for Hybrid WDM/TDM VPONs
  29. Effects of Sandstorms on Vehicular-to-Road Visible-Light Communication
  30. Estimation of Signal-to-Cross Talk Ratio of Stimulated-Raman-Scattering-Induced Cross Talk in Wavelength-Division-Multiplexing-Based Radio-over-Fiber Links
  31. Intelligent Requests Algorithm Based Scheduling and Efficient Dynamic Bandwidth Allocation to Improve QoS for EPONs
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