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Work on the Evaluation Parameters of Serial and Parallel Relay-Assisted FSO System

  • K.A Balaji and Kala Praveen Bagadi EMAIL logo
Published/Copyright: May 16, 2019
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Journal of Optical Communications
From the journal Journal of Optical Communications Volume 44 Issue 2

Abstract

The outage performance of FSO system assisted with decode and forward relay is studied using diversity techniques like wavelength and time which helps in mitigating atmospheric turbulence. The channel modelled using Malaga turbulence model with the combined effects of path loss and pointing errors. We derive outage performance analysis for multi hop system using no, wavelength and time diversity schemes, respectively. And we justified the usage of diversity techniques, Because of which the FSO system performance gets enhanced.

Keywords: pointing error ; M-distribution; path loss; wavelength diversity; multi-hop parallel FSO system

References

1. Boluda-Ruiz R, García-Zambrana A, Castillo-Vázquez B, Castillo-Vázquez C. Impact of relay placement on diversity order in adaptive selective df relay-assisted fso communications. Opt Express. 2015;23:2600–17.Search in Google Scholar

2. Prabu K, Kumar DS. Mimo free-space optical communication employing coherent bpolsk modulation in atmospheric optical turbulence channel with pointing errors. Opt Commun. 2015;343:188–94.Search in Google Scholar

3. Wang P, Zhang L, Guo L, Huang F, Shang T, Wang R, Yang Y. Average BER of subcarrier intensity modulated free space optical systems over the exponentiated Weibull fading channels. Opt Express. 2014;22:20828–41.Search in Google Scholar

4. Jagadeesh V, Palliyembil V, Muthuchidambaranathan P, Bui FM. Free space optical communication using subcarrier intensity modulation through generalized turbulence channel with pointing error. Microwave Opt Technol Lett. 2015;57:1958–61.Search in Google Scholar

5. Safari M, Uysal M. Relay-assisted free-space optical communication. IEEE Trans Wirel Commun. 2008;7:5441–9.Search in Google Scholar

6. Safari M, Rad MM, Uysal M. Multi-hop relaying over the atmospheric poisson channel: outage analysis and optimization. IEEE Trans Commun. 2012;60:817–29.Search in Google Scholar

7. Wang P, Zhang J, Guo L, Shang T, Cao T, Wang R, Yang Y. Performance analysis for relay-aided multihop bppm fso communication system over exponentiated Weibull fading channels with pointing error impairments. IEEE Photonics J. 2015;7:1–20.Search in Google Scholar

8. Krishnan P, Jana U, Ashokkumar BK. Asymptotic bit-error rate analysis of quadrature amplitude modulation and phase-shift keying with OFDM ROFSO over turbulence in the presence of pointing errors. IET Commun. 2018;12:2046–51.Search in Google Scholar

9. Yang L, Gao X, Alouini M-S. Performance analysis of free-space optical communication systems with multiuser diversity over atmospheric turbulence channels. IEEE Photonics J. 2014;6:1–17.Search in Google Scholar

10. Jiang J, Zhang P, Zhang R, Chen S, Hanzo L. Aperture selection for aco-ofdm in free-space optical turbulence channel. IEEE Trans Veh Technol. 2016;65:6089–100.Search in Google Scholar

11. Tang X, Wang Z, Xu Z, Ghassemlooy Z. Multihop free-space optical communications over turbulence channels with pointing errors using heterodyne detection. J Lightw Technol. 2014;32:2597–604.Search in Google Scholar

12. Jurado-Navas A, Garrido-Balsells JM, Paris JF, Puerta-Notario A. A unifying statistical model for atmospheric optical scintillation, arXiv preprint arXiv:1102.1915.Search in Google Scholar

13. Castillo-Vázquez C, Boluda-Ruiz R, Castillo-Vázquez B, García-Zambrana A. Outage performance of df relay-assisted fso communications using time diversity. In: Photonics Conference (IPC), 2015, IEEE, 2015, 423–426.Search in Google Scholar

14. Kashani MA, Safari M, Uysal M. Optimal relay placement and diversity analysis of relay-assisted free-space optical communication systems. IEEE/OSA J Opt Commun Netw. 2013;5:37–47.Search in Google Scholar

15. Wang P, Wang R, Guo L, Cao T, Yang Y. On the performances of relay-aided fso system over m distribution with pointing errors in presence of various weather conditions. Opt Commun. 2016;367:59–67.Search in Google Scholar

16. Balaji K, Prabu K. Performance evaluation of fso system using wavelength and time diversity over malaga turbulence channel with pointing errors. Opt Commun 2018;410:643–51.Search in Google Scholar

17. Song X, Cheng J. Subcarrier intensity modulated mimo optical communications in atmospheric turbulence. IEEE/OSA J Opt Commun Netw 2013;5:1001–9.Search in Google Scholar

18. Chiani M, Dardari D, Simon MK. New exponential bounds and approximations for the computation of error probability in fading channels. IEEE Trans Wirel Commun 2003;2:840–5.Search in Google Scholar

19. Majumdar AK. Free-space laser communication performance in the atmospheric channel. J Opt Fiber Commun Rep 2005;2:345–96.Search in Google Scholar

20. Balaji K, Prabu K. BER analysis of relay assisted PSK with OFDM ROFSO system over Malaga distribution including pointing errors under various weather conditions. Opt Commun. 2018;426:187–93.Search in Google Scholar
Received: 2019-02-23
Accepted: 2019-04-24
Published Online: 2019-05-16
Published in Print: 2023-04-25

© 2019 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. Devices
  3. Dual-Buffer-Based Optical Datacenter Switch Design
  4. Fibers
  5. Influence of Temperature on the Chromatic Dispersion of Photonic Crystal Fiber by Infiltrating the Air Holes with Water
  6. Performance Analysis of 80 GHz-Millimeter Wave Radio over Dispersive Fiber
  7. Lasers
  8. Design and Analysis of Static Characteristics of VCSEL at 1160 nm for Optical Interconnects
  9. Measurements
  10. Measurements of the dispersion, the dispersion slope and nonlinear coefficients of photonic crystal fibers based on degenerate four-wave mixing (FWM)
  11. Networks
  12. Research on CLIB Routing and Spectrum Allocation Algorithm in Elastic Optical Networks
  13. Performance Evaluation of Hybrid Optical Amplifier for Ultra Dense Wavelength Division Multiplexed Optical Network at Narrow Channel Spacing
  14. Systems
  15. FPGA Implementation of a Novel Construction of Optical Zero-Correlation Zone Codes for OCDMA Systems
  16. Work on the Evaluation Parameters of Serial and Parallel Relay-Assisted FSO System
  17. Performance Analysis of a Non-Hermitian OFDM Optical DQPSK FSO Link over Atmospheric Turbulent Channel
  18. Hybrid Optical Amplifier for Flat Gain in Super Dense Wavelength Division Multiplexed (SDWDM) System
  19. An All-Optical System for Implementing Integrated Hadamard-Pauli Quantum Logic
  20. Phonon Polariton Dispersion in Metal-Doped Nanocomposite Superlattice System
  21. Radio over Fibre Transport of Alamouti-coded MIMO Signals with Self-Recovery Capability
  22. DP-QPSK Technique for Ultra-high Bit-rate DWDM FSO System
  23. Design and Analysis of Alphabetical Slots of Patch Antenna for Mobile Optical Communication at 60 GHz
  24. Bidirectional MDRZ Downstream and NRZ OOK Upstream SS-WDM RoFSO Communication System
https://doi.org/10.1515/joc-2019-0050
Keywords for this article
pointing error; M-distribution; path loss; wavelength diversity; multi-hop parallel FSO system

Articles in the same Issue

  1. Frontmatter
  2. Devices
  3. Dual-Buffer-Based Optical Datacenter Switch Design
  4. Fibers
  5. Influence of Temperature on the Chromatic Dispersion of Photonic Crystal Fiber by Infiltrating the Air Holes with Water
  6. Performance Analysis of 80 GHz-Millimeter Wave Radio over Dispersive Fiber
  7. Lasers
  8. Design and Analysis of Static Characteristics of VCSEL at 1160 nm for Optical Interconnects
  9. Measurements
  10. Measurements of the dispersion, the dispersion slope and nonlinear coefficients of photonic crystal fibers based on degenerate four-wave mixing (FWM)
  11. Networks
  12. Research on CLIB Routing and Spectrum Allocation Algorithm in Elastic Optical Networks
  13. Performance Evaluation of Hybrid Optical Amplifier for Ultra Dense Wavelength Division Multiplexed Optical Network at Narrow Channel Spacing
  14. Systems
  15. FPGA Implementation of a Novel Construction of Optical Zero-Correlation Zone Codes for OCDMA Systems
  16. Work on the Evaluation Parameters of Serial and Parallel Relay-Assisted FSO System
  17. Performance Analysis of a Non-Hermitian OFDM Optical DQPSK FSO Link over Atmospheric Turbulent Channel
  18. Hybrid Optical Amplifier for Flat Gain in Super Dense Wavelength Division Multiplexed (SDWDM) System
  19. An All-Optical System for Implementing Integrated Hadamard-Pauli Quantum Logic
  20. Phonon Polariton Dispersion in Metal-Doped Nanocomposite Superlattice System
  21. Radio over Fibre Transport of Alamouti-coded MIMO Signals with Self-Recovery Capability
  22. DP-QPSK Technique for Ultra-high Bit-rate DWDM FSO System
  23. Design and Analysis of Alphabetical Slots of Patch Antenna for Mobile Optical Communication at 60 GHz
  24. Bidirectional MDRZ Downstream and NRZ OOK Upstream SS-WDM RoFSO Communication System
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