Startseite A Novel Method to Compensate Fiber Nonlinearities by Using NAFO Model
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A Novel Method to Compensate Fiber Nonlinearities by Using NAFO Model

  • Kuldeep Singh EMAIL logo und Sandeep K. Arya
Veröffentlicht/Copyright: 9. März 2017
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Journal of Optical Communications
Aus der Zeitschrift Journal of Optical Communications Band 39 Heft 4

Abstract

This paper proposes the Nonlinear Adaptive Filter bank–based artificial bee colony Optimizer (NAFO) based on Wiener filter for inverse modeling of nonlinear fiber link. Here a third-order inverse Volterra-based nonlinear equalizer (VNLE) is used to compensate the fiber nonlinearities using MATLAB Simulink. In the novel method the Mean Square Error (MSE) of the optical link is measured and compared with IIR-filter based technique. The MSE is reported to be 10–14 value lesser in the novel experimental setup consequently the proposed technique shows enhanced and efficient performance.

Keywords: nonlinear effect; artificial bee colony; third-order Volterra series; optical fiber; mean square error; DWDM

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Received: 2017-01-26
Accepted: 2017-02-14
Published Online: 2017-03-09
Published in Print: 2018-10-25

© 2018 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Frontmatter
  2. Devices
  3. A Four-Channel Optical Demultiplexer Using Photonic Crystal-Based Resonant Cavities
  4. A New Proposal for Ultra-Compact Polarization Independent Power Splitter Based on Photonic Crystal Structures
  5. Study of the Different Optical Filters in SAC-OCDMA System
  6. Fibers
  7. A Novel Method to Compensate Fiber Nonlinearities by Using NAFO Model
  8. Optical Modulation Enhancement Through CW Injection Locking of a Sinusoidally Modulated Fabry-Perot Laser Diode
  9. Networks
  10. Simulative Analysis of DWDM-Based Multiple-Beam FSO Communication Network under Adverse Weather Conditions
  11. A Scheme for UDWDM-PON Broadband Access Network Using a Mode Locked Laser Diode and Optical Injection Locking
  12. Receiver
  13. Channel Capacity and BER Estimation of Indoor Optical Wireless Communication System Under Receiver Mobility
  14. Systems
  15. New Hybrid PAPR Reduction Techniques for OFDM-Based Visible Light Communication Systems
  16. Optimized Base Station Location Planning for Indoor Positioning in Visible Light Communication System
  17. Analysis of Transmission Characteristics with Improved Modulation Formats Based on ROF Coherent System
  18. Performance Analysis of Spectral Amplitude Coding Optical Code Division Multiple Access System using Modified Double Weight Codes with Adomian Decomposition Method
https://doi.org/10.1515/joc-2017-0016
Schlagwörter für diesen Artikel
nonlinear effect; artificial bee colony; third-order Volterra series; optical fiber; mean square error; DWDM

Artikel in diesem Heft

  1. Frontmatter
  2. Devices
  3. A Four-Channel Optical Demultiplexer Using Photonic Crystal-Based Resonant Cavities
  4. A New Proposal for Ultra-Compact Polarization Independent Power Splitter Based on Photonic Crystal Structures
  5. Study of the Different Optical Filters in SAC-OCDMA System
  6. Fibers
  7. A Novel Method to Compensate Fiber Nonlinearities by Using NAFO Model
  8. Optical Modulation Enhancement Through CW Injection Locking of a Sinusoidally Modulated Fabry-Perot Laser Diode
  9. Networks
  10. Simulative Analysis of DWDM-Based Multiple-Beam FSO Communication Network under Adverse Weather Conditions
  11. A Scheme for UDWDM-PON Broadband Access Network Using a Mode Locked Laser Diode and Optical Injection Locking
  12. Receiver
  13. Channel Capacity and BER Estimation of Indoor Optical Wireless Communication System Under Receiver Mobility
  14. Systems
  15. New Hybrid PAPR Reduction Techniques for OFDM-Based Visible Light Communication Systems
  16. Optimized Base Station Location Planning for Indoor Positioning in Visible Light Communication System
  17. Analysis of Transmission Characteristics with Improved Modulation Formats Based on ROF Coherent System
  18. Performance Analysis of Spectral Amplitude Coding Optical Code Division Multiple Access System using Modified Double Weight Codes with Adomian Decomposition Method
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