To Decrease Maintenance Issues using FWM in Ultradense WDM Systems and Enhancing Optimum Placement of Optical Phase Conjugation
-
Anu Chauhan
,
Arti Vaish
Abstract
In this work, a maintenance issues resolved suppression method of four-wave mixing (FWM) is proposed using optical phase conjugation (OPC) modules and different placements of OPCs are investigated in ultradense wavelength division multiplexing (WDM) system with coherent orthogonal frequency division multiplexing (OFDM) incorporation. Moreover, comparison of the placements of OPC in six different cases has been done and compared with conventional WDM (no-OPC) system in terms of Q-factor, BER and induced FWM. Analysis has been done at different launched power levels. It is observed that placement of OPC after each laser source performs exceptionally well and suppresses FWM with ease of maintenance.
References
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© 2020 Walter de Gruyter GmbH, Berlin/Boston
Artikel in diesem Heft
- Frontmatter
- Amplifiers
- Performance Analysis of Homodyne-Based FSO System Using Various Optical Amplifiers
- Combined Effect of ASE Noise and SRS Induced Crosstalk on the BER Performance of a Single Span WDM System with Raman Amplifier Using Heterodyne Coherent Detection
- Devices
- Design of a High-Quality Optical Filter Based on 2D Photonic Crystal Ring Resonator for WDM Systems
- Reflective Detection Method of Partial Discharge Using Optical Fiber Sensor
- Fibers
- Effect of Soft Glass Rod Infiltration in the Core of Photonic Crystal Fiber
- Prediction of First Higher Order Modal Field for Graded Index Fiber in Presence of Kerr Nonlinearity
- Extremely Low Loss of Photonic Crystal Fiber for Terahertz Wave Propagation in Optical Communication Applications
- Networks
- Evaluation of Network Blocking Probability and Network Utilization Efficiency on Proposed Elastic Optical Network using RSA Algorithms
- Performance Analysis of a Novel 2-D Code in the Network Access Segment
- Systems
- To Decrease Maintenance Issues using FWM in Ultradense WDM Systems and Enhancing Optimum Placement of Optical Phase Conjugation
- Simulation-Based Optical Threshold Component Design for Mitigating Four-Wave Mixing Effects in WDM Radio Over Fiber Systems
- PAPR Reduction in OFDM Signal by Incorporating Mu-Law Companding Approach into Enhanced PTS Scheme
- Performance Analysis of Laser Phase Noise Compensated COOFDM System
- Performance Analysis of a Multiple Subcarrier Modulated FSO Communication System using Direct Detection Optical Receiver under the Effect of Weak Atmospheric Turbulence
- Analysis of Free Space Optics Link Performance Considering the Effect of Different Weather Conditions and Modulation Formats for Terrestrial Communication
Artikel in diesem Heft
- Frontmatter
- Amplifiers
- Performance Analysis of Homodyne-Based FSO System Using Various Optical Amplifiers
- Combined Effect of ASE Noise and SRS Induced Crosstalk on the BER Performance of a Single Span WDM System with Raman Amplifier Using Heterodyne Coherent Detection
- Devices
- Design of a High-Quality Optical Filter Based on 2D Photonic Crystal Ring Resonator for WDM Systems
- Reflective Detection Method of Partial Discharge Using Optical Fiber Sensor
- Fibers
- Effect of Soft Glass Rod Infiltration in the Core of Photonic Crystal Fiber
- Prediction of First Higher Order Modal Field for Graded Index Fiber in Presence of Kerr Nonlinearity
- Extremely Low Loss of Photonic Crystal Fiber for Terahertz Wave Propagation in Optical Communication Applications
- Networks
- Evaluation of Network Blocking Probability and Network Utilization Efficiency on Proposed Elastic Optical Network using RSA Algorithms
- Performance Analysis of a Novel 2-D Code in the Network Access Segment
- Systems
- To Decrease Maintenance Issues using FWM in Ultradense WDM Systems and Enhancing Optimum Placement of Optical Phase Conjugation
- Simulation-Based Optical Threshold Component Design for Mitigating Four-Wave Mixing Effects in WDM Radio Over Fiber Systems
- PAPR Reduction in OFDM Signal by Incorporating Mu-Law Companding Approach into Enhanced PTS Scheme
- Performance Analysis of Laser Phase Noise Compensated COOFDM System
- Performance Analysis of a Multiple Subcarrier Modulated FSO Communication System using Direct Detection Optical Receiver under the Effect of Weak Atmospheric Turbulence
- Analysis of Free Space Optics Link Performance Considering the Effect of Different Weather Conditions and Modulation Formats for Terrestrial Communication
