Artikel
Lizenziert
Nicht lizenziert
Erfordert eine Authentifizierung
Secure Optical Communication System Based on Dynamic Strong Dispersion Control
-
,
Veröffentlicht/Copyright:
13. Dezember 2012
Abstract
An novel solution for secure optical communication system based on dynamic strong dispersion control is proposed. Firstly, the theoretical principle of dynamic strong dispersion control and the system structure, especially the composition of encryption part and decryption part, are presented. Secondly, the feasibility and performance of the secure system are verified by numerical analyzing in a 40 Gb/s simulation system. Lastly, the huge application potential of this system in various fields is pointed out.
Received: 2012-05-07
Accepted: 2012-08-30
Published Online: 2012-12-13
Published in Print: 2012-12-14
©[2012] by Walter de Gruyter Berlin Boston
Sie haben derzeit keinen Zugang zu diesem Inhalt.
Sie haben derzeit keinen Zugang zu diesem Inhalt.
Artikel in diesem Heft
- Masthead
- Performance of Fiber Raman Amplifier due to Change in Refractive Index of Second Core of Dual Core Fiber Raman Amplifier
- Design of FBG En/decoders in Coherent 2-D Time-polarization OCDMA Systems
- Simple Method for Study of Single-mode Dispersion-shifted and Dispersion-flattened Fibers
- Spectroscopic Properties of Tm3+/Yb3+-Codoped Tellurite Material
- Application of Raman Amplification using a Reflector in Passive Optical Networks
- An Approach of Multiple-Quality Segment Protection Based on p-Cycle for the Optical Multicast
- Performance Evaluation of Hybrid SCM/SAC-OCDMA Transmissions System using Dynamic Cyclic Shift Code
- Secure Optical Communication System Based on Dynamic Strong Dispersion Control
- Phase Noise Influence in Long-range Coherent Optical OFDM Systems with Delay Detection, IFFT Multiplexing and FFT Demodulation
- Impact of Laser Line-width in 40 Gbit/s DWDM Transmission System in the Presence of FWM Incorporating Equal Channel Spacing
- PMD Mitigation by Various Distribution Patterns of Fast Polarization Scramblers with Forward Error Correction
- Effects of Fiber Dispersion on the Performance of Optical CDMA Systems
- Mismatch Consideration in Circular Core Mono-mode Graded Index Fiber of Triangular Refractive Index Profile Excitation via Hemispherical Microlens on the Fiber Tip
- Theoretical Investigation of XPM Induced Crosstalk under the Impact of Higher Order Dispersion (HOD) in SCM-WDM Transmission Link
Schlagwörter für diesen Artikel
secure optical communication;
strong dispersion control;
quasi-linear;
dynamic
Artikel in diesem Heft
- Masthead
- Performance of Fiber Raman Amplifier due to Change in Refractive Index of Second Core of Dual Core Fiber Raman Amplifier
- Design of FBG En/decoders in Coherent 2-D Time-polarization OCDMA Systems
- Simple Method for Study of Single-mode Dispersion-shifted and Dispersion-flattened Fibers
- Spectroscopic Properties of Tm3+/Yb3+-Codoped Tellurite Material
- Application of Raman Amplification using a Reflector in Passive Optical Networks
- An Approach of Multiple-Quality Segment Protection Based on p-Cycle for the Optical Multicast
- Performance Evaluation of Hybrid SCM/SAC-OCDMA Transmissions System using Dynamic Cyclic Shift Code
- Secure Optical Communication System Based on Dynamic Strong Dispersion Control
- Phase Noise Influence in Long-range Coherent Optical OFDM Systems with Delay Detection, IFFT Multiplexing and FFT Demodulation
- Impact of Laser Line-width in 40 Gbit/s DWDM Transmission System in the Presence of FWM Incorporating Equal Channel Spacing
- PMD Mitigation by Various Distribution Patterns of Fast Polarization Scramblers with Forward Error Correction
- Effects of Fiber Dispersion on the Performance of Optical CDMA Systems
- Mismatch Consideration in Circular Core Mono-mode Graded Index Fiber of Triangular Refractive Index Profile Excitation via Hemispherical Microlens on the Fiber Tip
- Theoretical Investigation of XPM Induced Crosstalk under the Impact of Higher Order Dispersion (HOD) in SCM-WDM Transmission Link
