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Total losses and dispersion effects management and upgrading fiber reach in ultra-high optical transmission system based on hybrid amplification system

  • Govindaraj Ramkumar EMAIL logo , Ferlin Deva Shahila , Vanitha Lingaraj , Prabhu Chandran , Vivek Chidambaram , Parimala Arumugam and Hegazy Mahmoud Ramadan EMAIL logo
Published/Copyright: May 16, 2024
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Journal of Optical Communications
From the journal Journal of Optical Communications Volume 46 Issue 2

Abstract

This work demonstrated the total losses and dispersion effects management and upgrading the fiber reach in ultra-high optical transmission system based on hybrid amplification system. Based on the requirements of the system, a number of trade-offs must be made between the numerous interconnected performance characteristics of each component in the design of a high quality transmission link. The transmission distance is the greatest distance that an optical signal has to travel. It affects the choice of optical component, fiber type, and signal amplification techniques. Fiber amplifiers or signal regeneration may be required to compensate for signal loss over greater distances. Reviewing these crucial aspects helps when selecting the best optical components and system layout. This ensures the optical link performs as expected. Hybrid amplification system unit (EDFA/Raman/EDFA), (EDFA/Raman), (BFA/PDFA) and (Raman/EDFA) is employed in the transmission system to strength the signal and upgrade the system performance operation efficiency. Space division multiplexing scheme is also employed with the propagation scheme in order to upgrade and control of the total losses and dispersion effects. The optimum total losses/dispersion/repeater spacing are studied with the variations of the total number of links per fiber core channel.

Keywords: total losses; dispersion coefficient; amplification system; fiber reach; transmission system
Corresponding authors: Govindaraj Ramkumar, Department of ECE, Saveetha School of Engineering, Saveetha Institute of Medical and Technical Sciences (SIMATS), Saveetha University, Chennai, Tamil Nadu, India, E-mail: ; and Hegazy Mahmoud Ramadan, Sina Institute of Technology, Sina, Egypt, E-mail:

  1. Research ethics: Not applicable.

  2. Author contributions: The authors have accepted responsibility for the entire content of this manuscript and approved its submission.

  3. Competing interests: The authors state no conflict of interest.

  4. Research funding: Not applicable.

  5. Data availability: Not applicable.

References

1. Chosh, G, Yajima, H. Pressure dependent Sellmeier coefficients and material dispersions for silica fiber glass. J Lightwave Technol 1998;16:2002–5. https://doi.org/10.1109/50.730361.Search in Google Scholar

2. Tang, J. The Shannon channel capacity of dispersion free nonlinear optical fiber transmission. J Lightwave Technol 2001;19:1104–9. https://doi.org/10.1109/50.939789.Search in Google Scholar

3. Tang, J. The multispan effects of Kerr nonlinearity and amplifier noises on Shannon channel capacity of a dispersion free nonlinear optical fiber. J Lightwave Technol 2001;19:1110–5. https://doi.org/10.1109/50.939790.Search in Google Scholar

4. Bakhshi, B, Manna, M, Mohs, G, Kovsh, D, Lynch, R, Vaa, M, et al.. First dispersion flattened transpacific undersea system: from design to terabit/s field trial. J Lightwave Technol 2004;22:233–41. https://doi.org/10.1109/jlt.2003.822209.Search in Google Scholar

5. Rasmussen, C, Fjelde, T, Bennike, J, Liu, F, Dey, S, Mikkelsen, B, et al.. DWDM 40G transmission over trans-pacific distance (10,000 km) using CSRZ-DPSK, enhanced FEC, and all-Raman-amplified 100 km ultra-wave fiber spans. J Lightwave Technol 2004;22:203–7. https://doi.org/10.1109/jlt.2004.824187.Search in Google Scholar

6. Zhu, B, Nelson, L, Stulz, S, Gnauck, A, Doerr, C, Leuthold, J, et al.. High spectral density long-haul 40 Gb/s transmission using CSRZ-DPSK format. J Lightwave Technol 2004;22:208–14. https://doi.org/10.1109/jlt.2003.822165.Search in Google Scholar

7. Murakami, M, Matsuda, T, Maeda, H, Tada, Y, Imai, T. WDM upgrading of an installed submarine optical amplifier system. J Lightwave Technol 2001;19:1665–74. https://doi.org/10.1109/50.964066.Search in Google Scholar

8. Tanaka, T, Hibino, Y, Hashimoto, T, Abe, M, Kasahara, R, Tohmori, Y. 100 GHz spacing eight channel light source integrated with external cavity lasers on planar lightwave circuit platform. J Lightwave Technol 2004;22:567–73. https://doi.org/10.1109/jlt.2004.824382.Search in Google Scholar

9. Fujisawa, T, Koshiba, M. Time domain beam propagation method for nonlinear optical propagation analysis and its application to photonic crystal circuits. J Lightwave Technol 2004;22:684–91. https://doi.org/10.1109/jlt.2004.824457.Search in Google Scholar

10. Koa, M-S, Wu, J. Extending transmission distance of high density WDM systems using post transmitter fiber Raman amplifiers. J Lightwave Technol 1991;9:394–9. https://doi.org/10.1109/50.70018.Search in Google Scholar

11. Suzuki, H, Fujiwara, M, Iwatsuki, K. Application of super DWDM technologies to terrestrial terabit transmission systems. J Lightwave Technol 2006;24:1998–2005. https://doi.org/10.1109/jlt.2006.871115.Search in Google Scholar

12. Charlet, G, Bigo, S. Upgrading WDM submarine systems to 40 Gbit/s channel bit rate. Proc IEEE 2006;94:935–51. https://doi.org/10.1109/jproc.2006.873437.Search in Google Scholar

13. Bigo, S. Modeling of WDM terrestrial and submarine links for the design of WDM networks. In: Optical fiber communication conference, 2006 and the 2006 national fiber optic engineers conference. Anaheim, California, US: Technical Digest (CD) Optica Publishing Group; 2006:1–27 pp.Search in Google Scholar

14. Lefrancois, M, Charlet, G, Bigo, S. Impact of very large cumulated dispersion on performance of 40 Gbit/s submarine systems over non zero dispersion shifted fibers. Electron Lett 2006;42:174–6. https://doi.org/10.1049/el:20064213.10.1049/el:20064213Search in Google Scholar

15. Pilipetskii, AN. High capacity undersea long haul systems. IEEE J Sel Top Quant Electron 2006;12:484–96. https://doi.org/10.1109/jstqe.2006.876596.Search in Google Scholar

16. Bergano, NS. Optical fiber submarine cable systems. J Lightwave Technol 2005;23:4125–39. https://doi.org/10.1109/jlt.2005.858255.Search in Google Scholar

17. Kerfoot, FW, William, N. Undersea fiber optic networks: past, present, and future. IEEE J Sel Area Commun 1998;16:1220–5. https://doi.org/10.1109/49.725191.Search in Google Scholar

18. Henschel, H, Baumann, E. Effect of natural radioactivity on optical fibers of undersea cables. J Lightwave Technol 1996;14:724–31. https://doi.org/10.1109/50.495151.Search in Google Scholar

19. Lu, Y, Cao, L, Wu, S, Mi, X, Jiang, L, Zhai, Y, et al.. A novel smooth evolution to TWDM PON based on wavelength complement coding. Opt Fiber Technol 2022;74:103053. https://doi.org/10.1016/j.yofte.2022.103053.Search in Google Scholar

20. Lu, Y, Cao, L, Jiang, L, Mi, X, Wu, S, Zhai, Y, et al.. A smooth PON evolution based on PAM4 complement code. Opt Fiber Technol 2022;74:103058. https://doi.org/10.1016/j.yofte.2022.103058.Search in Google Scholar

21. Fazea, Y, Amphawan, A, Al-Gumaei, YA, Al-Samman, AM, Mugahed Al-Rahmi, W. Modes power equalization based-singular value decomposition in mode division multiplexing systems for multi-hungry bandwidth applications. Opt Fiber Technol 2021;61:102389. https://doi.org/10.1016/j.yofte.2020.102389.Search in Google Scholar

22. Asif, R, Haithem, M. 10 Gbit/s mode-multiplexed QPSK transmission using MDM-to-MFDM based single coherent receiver for intra- and inter data center networking. Opt Commun 2017;391:106–10. https://doi.org/10.1016/j.optcom.2017.01.022.Search in Google Scholar
Received: 2024-03-10
Accepted: 2024-04-30
Published Online: 2024-05-16
Published in Print: 2025-04-28

© 2024 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Comparative study of single pump all optical fiber amplifiers (POAs) with ultra wide band and high gain fiber optic parametric amplifiers in highly nonlinear fibers
  4. Dense wavelength division multiplexing scheme based on effective distributed inline light fiber Raman amplifier configuration
  5. Four wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multi pumped Raman amplifiers
  6. High efficient net gain and low noise figure based vertical cavity semiconductor optical amplifiers for wavelength division multiplexing applications
  7. Hybrid pumped laser sources based hybrid traveling wave SOA and optical EDFA amplifies for signal quality improvement
  8. Devices
  9. The effect of misalignment on the coupling optics involving laser diode and single-mode triangular index fiber with an upside down tapered hyperbolic microlens on its tip
  10. Fibers
  11. Investigation of hybrid chalcogenide photonic crystal fiber for MIR supercontinuum generation and optical communication
  12. Verified of leakage loss, birefringence, nonlinear parameters and total number of modes in silica/silica doped and plastic fibers for fiber system efficiency improvement
  13. Total losses and dispersion effects management and upgrading fiber reach in ultra-high optical transmission system based on hybrid amplification system
  14. Various graded index plastic optical fiber performance signature capability with the optimum dispersion control for indoor coverage applications
  15. Lasers
  16. Optically injected quantum dot lasers and its complex dynamics
  17. Light emitting diode and laser diode system behaviour description and their performance signature measurements
  18. Networks
  19. Spectrum fragmentation-aware dynamic network slicing deployment in computing power networks based on elastic optical networks
  20. Investigation of 16 × 10 Gbps mode division multiplexed enabled integrated NGPON–FSO architecture under wired-wireless link losses
  21. Systems
  22. Free space optical communication system: a review of practical constraints, applications, and challenges
  23. High modulation effects on hybrid optical fiber links and OWC Channel based on optical DP-QSK transceiver systems
  24. Optical communication enhanced IDMBOC for maximizing backhaul-effect & maintaining optimum cell sizes
  25. Mitigating attenuation effects in free-space optics using WDM under variable atmospheric conditions
  26. Performance analysis of variable-gain amplify and forward relayed hybrid FSO/VLC communication system
  27. Wavelength division multiplexing of free space optical system under the effect of oil fire smoke
  28. A hybrid approach combining OFC and FSO for multichannel connectivity
  29. Performance analysis of 4QAM-OFDM-FSO link under rain weather conditions
  30. Exploring FSO link performance in varied atmospheric conditions to optimize 5G communication with a polarized quasi-diffuse transmitter
  31. Transmitter diversity and OAM incorporated 40 Gbps free space optical system
  32. Minimization of dispersion and non-linear effects in WDM based long-haul high capacity optical communication systems
  33. Retraction
  34. Retraction of: 76 articles published in Journal of Optical Communications
https://doi.org/10.1515/joc-2024-0074
Keywords for this article
total losses; dispersion coefficient; amplification system; fiber reach; transmission system

Articles in the same Issue

  1. Frontmatter
  2. Amplifiers
  3. Comparative study of single pump all optical fiber amplifiers (POAs) with ultra wide band and high gain fiber optic parametric amplifiers in highly nonlinear fibers
  4. Dense wavelength division multiplexing scheme based on effective distributed inline light fiber Raman amplifier configuration
  5. Four wave mixing, average amplified spontaneous emission, and channel spacing effects on the optical transceiver systems based on multi pumped Raman amplifiers
  6. High efficient net gain and low noise figure based vertical cavity semiconductor optical amplifiers for wavelength division multiplexing applications
  7. Hybrid pumped laser sources based hybrid traveling wave SOA and optical EDFA amplifies for signal quality improvement
  8. Devices
  9. The effect of misalignment on the coupling optics involving laser diode and single-mode triangular index fiber with an upside down tapered hyperbolic microlens on its tip
  10. Fibers
  11. Investigation of hybrid chalcogenide photonic crystal fiber for MIR supercontinuum generation and optical communication
  12. Verified of leakage loss, birefringence, nonlinear parameters and total number of modes in silica/silica doped and plastic fibers for fiber system efficiency improvement
  13. Total losses and dispersion effects management and upgrading fiber reach in ultra-high optical transmission system based on hybrid amplification system
  14. Various graded index plastic optical fiber performance signature capability with the optimum dispersion control for indoor coverage applications
  15. Lasers
  16. Optically injected quantum dot lasers and its complex dynamics
  17. Light emitting diode and laser diode system behaviour description and their performance signature measurements
  18. Networks
  19. Spectrum fragmentation-aware dynamic network slicing deployment in computing power networks based on elastic optical networks
  20. Investigation of 16 × 10 Gbps mode division multiplexed enabled integrated NGPON–FSO architecture under wired-wireless link losses
  21. Systems
  22. Free space optical communication system: a review of practical constraints, applications, and challenges
  23. High modulation effects on hybrid optical fiber links and OWC Channel based on optical DP-QSK transceiver systems
  24. Optical communication enhanced IDMBOC for maximizing backhaul-effect & maintaining optimum cell sizes
  25. Mitigating attenuation effects in free-space optics using WDM under variable atmospheric conditions
  26. Performance analysis of variable-gain amplify and forward relayed hybrid FSO/VLC communication system
  27. Wavelength division multiplexing of free space optical system under the effect of oil fire smoke
  28. A hybrid approach combining OFC and FSO for multichannel connectivity
  29. Performance analysis of 4QAM-OFDM-FSO link under rain weather conditions
  30. Exploring FSO link performance in varied atmospheric conditions to optimize 5G communication with a polarized quasi-diffuse transmitter
  31. Transmitter diversity and OAM incorporated 40 Gbps free space optical system
  32. Minimization of dispersion and non-linear effects in WDM based long-haul high capacity optical communication systems
  33. Retraction
  34. Retraction of: 76 articles published in Journal of Optical Communications
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