Numerical Analysis of Dispersion Compensation Schemes for Pseudo-linear Transmission System
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Xu Chen
Abstract
A pseudo-linear optical transmission system analytical model is built for the numerical analysis of dispersion compensation schemes. The system performance under the influence of intra-channel nonlinear effects and the initial pulse power is discussed for the data rates of 10, 40, 100 and 160 Gbit/s, respectively. We get the conclusion for the first time as we know the optimal dispersion compensation scheme for the optimal system performance is closely related to the system data rate and the proportion of the pre-dispersion compensation should be decreased while that of the post-dispersion compensation be increased with the increasing of system data rate. When the system data rate is higher than 160 Gbit/s, we can use the post-dispersion compensation scheme directly.
Funding statement: Funding: This research was supported by Sichuan Provincial Science and Technology Supporting Program (2013GZ0014), Key Project of Sichuan Education Department (13ZA0088) and China Scholarship Council.
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Articles in the same Issue
- Frontmatter
- Systematic Studies of Distributed and Hybrid Raman Amplification in 10G-EPON and TWDM-PON
- Raman Amplifier Performance under New Wavelength Ranges
- Linewidth Enhancement Factor and Amplification of Angle-Modulated Optical Signals in Injection-Locked Quantum Cascade Lasers
- QKD-Based Secured Burst Integrity Design for Optical Burst Switched Networks
- Quality of Recovery Evaluation of the Protection Schemes for Fiber-Wireless Access Networks
- Demand Routing with ASE Impairment Consideration in Long Distance Optical Networks
- Performance Analysis of DPSK-OCDMA System for Optical Access Network
- One bit/s/Hz Spectrally Efficient Transmission for an Eight-Channel NRZ-Modulated DWDM System
- Power Analysis of Soliton Pulse for ROF-OFDM System
- Simulative analysis of different modulation formats for RoF Transmission System
- Simulative Analysis of Multi-tone RoF Transmission System
- Numerical Analysis of Dispersion Compensation Schemes for Pseudo-linear Transmission System
- Performance Analysis of SAC Optical PPM-CDMA System-Based Interference Rejection Technique
- Analysis of Performance for 100 Gbit/s Dual-Polarization QPSK Modulation Format System
- News
- News
