Performance investigation of high-speed FSO transmission system under the influence of different atmospheric conditions incorporating 3-D orthogonal modulation scheme

In this paper, we report the modeling and simulative investigation of a free space optics (FSO) transmission system using non-return to zero/differential quadrature phase shift keying/polarization shift keying 3-D orthogonal modulation scheme in which three independent 40 Gb/s data streams are transmitted simultaneously using different signal parameters over the same channel to improve the spectral efficiency of the link. The proposed system demonstrates a successful transmission of 120 Gb/s information over an FSO link range of 25 km with an acceptable bit-error rate ( $$\sim 10^{ - 9}$$ ) under clear weather conditions. The performance of the proposed link is also analyzed under the effect of atmospheric turbulence. Further, we compare the performance of the proposed system with previously reported works in the literature and the results demonstrate that the proposed 3-D orthogonal modulation scheme based FSO transmission system performs better in terms of spectral efficiency, information capacity and maximum achievable link distance.

[2]  Sushank Chaudhary,et al.  Solid core PCF-based mode selector for MDM-Ro-FSO transmission systems , 2018, Photonic Network Communications.

[3]  Rakesh Kumar Jha,et al.  Performance analysis of an 80 (8 × 10) Gbps RZ-DPSK based WDM-FSO system under combined effects of various weather conditions and atmospheric turbulence induced fading employing Gamma–Gamma fading model , 2018 .

[4]  Isaac I. Kim,et al.  Comparison of laser beam propagation at 785 nm and 1550 nm in fog and haze for optical wireless communications , 2001, SPIE Optics East.

[5]  Rakesh Kumar Jha,et al.  Performance comparison of various modulation schemes over free space optical (FSO) link employing Gamma–Gamma fading model , 2017 .

[6]  Naresh Kumar,et al.  Performance analysis of different modulation format on free space optical communication system , 2013 .

[7]  Dalveer Kaur,et al.  4 × 10 GBPS cost effective hybrid OADM‐MDM short haul interconnects , 2016 .

[8]  Anisa Qasim,et al.  Parametric Investigation Of Different Modulation Techniques On Free Space Optical Systems , 2014, FIT - 2014.

[9]  Yufeng Shao,et al.  DP-DQPSK Optical Access System Integrated with Fiber and Free-Space Downlink for High Spectral Efficiency Application , 2016 .

[10]  N. Wada,et al.  A Novel Optical Orthogonal Modulation Format Based on Differential Phase-Shift Keying and Code-Shift Keying , 2011, IEEE Photonics Technology Letters.

[11]  Zabih Ghassemlooy,et al.  Terrestrial Free-Space Optical Communications , 2010 .

[12]  Nan Chi,et al.  Improved optical coding method for orthogonal ASK/DPSK modulation format , 2008 .

[13]  Y. Zhang,et al.  A Multicast WDM-PON Architecture Using DPSK/NRZ Orthogonal Modulation , 2008, IEEE Photonics Technology Letters.

[14]  Naresh Kumar,et al.  10 Gbit/s OFDM based FSO communication system using M-QAM modulation with enhanced detection , 2015 .

[15]  Syed Alwee Aljunid,et al.  Optimization of free space optics parameters: An optimum solution for bad weather conditions , 2013 .

[16]  Mahmoud M. Elmesalawy,et al.  BPSK based SIM-FSO communication system with SIMO over log-normal atmospheric turbulence with pointing errors , 2017, 2017 19th International Conference on Transparent Optical Networks (ICTON).

[17]  Lubna Nadeem,et al.  Performance of FSO Links using CSRZ, RZ, and NRZ and Effects of Atmospheric Turbulence , 2018 .

[18]  J. Speidel,et al.  Quaternary optical ASK-DPSK and receivers with direct detection , 2003, IEEE Photonics Technology Letters.

[19]  Gurjit Kaur,et al.  Development of a novel hybrid PDM/OFDM technique for FSO system and its performance analysis , 2019, Optics & Laser Technology.

[20]  Sushank Chaudhary,et al.  A cost effective 100 Gbps hybrid MDM–OCDMA–FSO transmission system under atmospheric turbulences , 2017 .

[21]  K. Prabu,et al.  Impact of pointing errors and turbulence effects on POLSK and coherent OWC-based FSO system over generalized turbulence channel model , 2018, Photonic Network Communications.