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The Engagement of Hybrid Ultra High Space Division Multiplexing with Maximum Time Division Multiplexing Techniques for High-Speed Single-Mode Fiber Cable Systems

  • I. S. Amiri , P. G. Kuppusamy , Ahmed Nabih Zaki Rashed , P. Jayarajan , M. R. Thiyagupriyadharsan EMAIL logo and P. Yupapin
Published/Copyright: October 19, 2019
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Journal of Optical Communications
From the journal Journal of Optical Communications Volume 43 Issue 2

Abstract

High-speed single-mode fiber-optic communication systems have been presented based on various hybrid multiplexing schemes. Refractive index step and silica-doped germanium percentage parameters are also preserved during their technological boundaries of attention. It is noticed that the connect design parameters suffer more nonlinearity with the number of connects. Two different propagation techniques have been used to investigate the transmitted data rates as a criterion to enhance system performance. The first technique is soliton propagation, where the control parameters lead to equilibrium between the pulse spreading due to dispersion and the pulse shrinking because of nonlinearity. The second technique is the MTDM technique where the parameters are adjusted to lead to minimum dispersion. Two cases are investigated: no dispersion cancellation and dispersion cancellation. The investigations are conducted over an enormous range of the set of control parameters. Thermal effects are considered through three basic quantities, namely the transmission data rates, the dispersion characteristics, and the spectral losses.

Keywords: optical soliton; UW-SDM; chromatic dispersion; MTDM

References

1. Rashed AN, El- Badawy EA, Mohammed AN. Rapid progress of transmission bit rates for multi users for cost planning of passive optical network (PON) Standards. Int J Sci Technol. 2011;1:1–11.Search in Google Scholar

2. Rashed AN, Mohammed AN, Mahmoud II, El_Tokhy MS, Elgzar OH. An accurate model for chromatic dispersion in optical fibers under radiation and thermal effects. Int J Adv Res Comput Eng Technol. 2013;2:2646–54.Search in Google Scholar

3. Rekha MK. Analysis and comparison of dispersion compensation by DCF schemes & fiber bragg grating. Int J Comput Technol Appl. 2016;9:165–76.Search in Google Scholar

4. Nogesh R, Mohan RR, Asho RS. A survey on dispersion management using optical solitons in optical communication system. Procedia Technol. 2016;25:552–9.10.1016/j.protcy.2016.08.144Search in Google Scholar

5. Patel MG, Khant SB. Soliton transmission in fiber optics for long distance communication. Int J Adv Res Electr Electron Instrum Eng. 2014;3:7100–7.Search in Google Scholar

6. Sanjari R, Pourmahyabadi M. Design of single mode photonic crystal fiber with outstanding characteristics of confinement loss and chromatic dispersion over S and L communication band. Iran J Electr Electron Eng. 2016;12:29–34.Search in Google Scholar

7. Patel MG, Khant SB. Soliton transmission in fiber optics for long distance communication. Int J Adv Res Electr Electron Instrum Eng. 2014;3:7100–7.Search in Google Scholar

8. Amiri IS, Ariannejad MM, Ghasemi M, Ahmad H. Transmission performances of solitons in optical wired link. Appl Comput Inf. 2017;13:92–9.10.1016/j.aci.2016.06.001Search in Google Scholar

9. Amiri IS, Soltanian MR, Alavi SE, Othman AR, Razak MZ, Ahmad H. Micro ring resonator for transmission of solitons via wired/wireless optical communication. J Opt. 2016;45:255–9.10.1007/s12596-015-0269-2Search in Google Scholar

10. Kim KH, Lee HK, Park SY, Lee E-H. Calculation of dispersion and nonlinear effect limited maximum TDM and FDM bit rates of transform-limited pulses in single mode optical fibers. J Lightwave Technol. 1995;13:1597–605.10.1109/50.405301Search in Google Scholar
Received: 2019-07-27
Accepted: 2019-09-30
Published Online: 2019-10-19
Published in Print: 2022-04-26

© 2019 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Performance Investigate and Analysis of 96 × 10 Gbps DWDM System Using Suitable Rating from Optical Amplifiers
  4. Devices
  5. Design and Analysis of 3-Input NAND/NOR/XNOR Gate Based on 2D Photonic Crystals
  6. All-Optical Switching Device Using Plasmonic Mach-Zehnder Interferometer Structure
  7. Fibers
  8. Theoretical Assessment of a Porous Core Photonic Crystal Fiber for Terahertz Wave Propagation
  9. Networks
  10. Method and Algorithm for Topology Automatic Discovery in Complicated Passive Optical Network Architecture
  11. The Engagement of Hybrid Ultra High Space Division Multiplexing with Maximum Time Division Multiplexing Techniques for High-Speed Single-Mode Fiber Cable Systems
  12. Hybrid Algorithm Based Effective Light Trail Creation in an Optical Networks
  13. Adaptive Scheduling Mechanism with Variable Bit Rate Traffic in EPON
  14. A Novel Implementation of TCP Vegas by UsingA Fuzzy-Threshold Base Algorithm to Improve Performance of Optical Networks
  15. Improving Performance of Optical Networks by a Probable Approach
  16. Systems
  17. UltraHigh Bit-Rate Hybrid DWDM Optical System Design Using DP-QPSK Modulation
  18. Performance Limits of FSO Based SAC-OCDMA System Under Weather Conditions
  19. Performance Appraisal of Sigma Delta Modulated Radio over Fiber System
  20. Behavior study of EDEU optical code for FE-OCDMA system
  21. Performances enhancement of underwater wireless optical communications (UWOC) using pulse position modulation
  22. Theory
  23. Design and Simulation of OFDM for BPSK, QPSK and QAM with Peak Power Reduction Using Clipping Technique
https://doi.org/10.1515/joc-2019-0205
Keywords for this article
optical soliton; UW-SDM; chromatic dispersion; MTDM

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Performance Investigate and Analysis of 96 × 10 Gbps DWDM System Using Suitable Rating from Optical Amplifiers
  4. Devices
  5. Design and Analysis of 3-Input NAND/NOR/XNOR Gate Based on 2D Photonic Crystals
  6. All-Optical Switching Device Using Plasmonic Mach-Zehnder Interferometer Structure
  7. Fibers
  8. Theoretical Assessment of a Porous Core Photonic Crystal Fiber for Terahertz Wave Propagation
  9. Networks
  10. Method and Algorithm for Topology Automatic Discovery in Complicated Passive Optical Network Architecture
  11. The Engagement of Hybrid Ultra High Space Division Multiplexing with Maximum Time Division Multiplexing Techniques for High-Speed Single-Mode Fiber Cable Systems
  12. Hybrid Algorithm Based Effective Light Trail Creation in an Optical Networks
  13. Adaptive Scheduling Mechanism with Variable Bit Rate Traffic in EPON
  14. A Novel Implementation of TCP Vegas by UsingA Fuzzy-Threshold Base Algorithm to Improve Performance of Optical Networks
  15. Improving Performance of Optical Networks by a Probable Approach
  16. Systems
  17. UltraHigh Bit-Rate Hybrid DWDM Optical System Design Using DP-QPSK Modulation
  18. Performance Limits of FSO Based SAC-OCDMA System Under Weather Conditions
  19. Performance Appraisal of Sigma Delta Modulated Radio over Fiber System
  20. Behavior study of EDEU optical code for FE-OCDMA system
  21. Performances enhancement of underwater wireless optical communications (UWOC) using pulse position modulation
  22. Theory
  23. Design and Simulation of OFDM for BPSK, QPSK and QAM with Peak Power Reduction Using Clipping Technique
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