6 × 20 Gbps Hybrid WDM–PI Inter-satellite System under the Influence of Transmitting Pointing Errors
-
Sushank Chaudhary
,
Abhishek Sharma
Abstract
Inter-satellite communication is a revolutionary technique used to establish communication between satellites in space. One of the major challenges in inter-satellite link is transmitting pointing errors, which causes turbulences in the link. This work is focussed on successful transmission of 120 Gbps high-speed data over 1,000 km by adopting hybrid wavelength division multiplexing scheme and polarization interleaving scheme under the influence of transmitting pointing error.
References
1. Krainak MA. Inter-satellite communication optoelectronics research at the Goddard space flight centre. IEEE Aerosp Electro Syst Mag 1992;7:44–7.10.1109/62.156197Search in Google Scholar
2. Chaudhary S, Amphawan A. The role and challenges of free-space optical systems. J Opt Commun ISSN (online) 2191-6322, ISSN (print) 0173-4911, doi:10.151/joc–2014–0004.Search in Google Scholar
3. Jamalipour A. Low earth orbital satellites for personal communication networks. Artech House, Inc., 1997.Search in Google Scholar
4. Borah DK, Volez DG, Basu S. Maximum-likelihood estimation of a laser system pointing parameters by use of return photon counts. Appl Opt 1999;38:3229–33.10.1364/AO.45.002504Search in Google Scholar PubMed
5. Sharma C, Singh S, Sharma B. Investigations on bit error rate performance of DWDM free space optics system using semiconductor optical amplifier in intersatellite communication. Int J Eng Res Technol 2013;2.10.24297/ijct.v8i3.3391Search in Google Scholar
6. Rani M, Prince S. A study on inter-satellite optical wireless communication and its performance analysis. Devices, Circuits and Systems (ICDCS), 2012 International Conference on IEEE 2012.10.1109/ICDCSyst.2012.6188705Search in Google Scholar
7. Chaudhary S, Sharma A. 6×20 Gbps long reach WDM-PI based high altitude platform inter-satellite communication system. Int J Comput Appl 2015;122.10.5120/21861-5192Search in Google Scholar
8. Shahidinejad A, Soltanmohammadi S, Amiri IS, Anwar T. Solitonic pulse generation for inter-satellite optical wireless communication. Quantum Matter 2014;3:150–4.10.1166/qm.2014.1107Search in Google Scholar
9. Bloom S, Korevaar E, Schuster J, Willebrand H. Understanding the performance of free-space optics. J Opt Networking 2003;2:178–200.10.1364/JON.2.000178Search in Google Scholar
10. Arnon S. Performance of a satellite network with an optical preamplifier. J Opt Soc Am A 2005;22:708–15.10.1364/JOSAA.22.000708Search in Google Scholar PubMed
11. Polishuk A, Arnon S. Optimization of a laser satellite communication system with an optical preamplifier. J Opt Soc Am 2004;21:1307–15.10.1364/JOSAA.21.001307Search in Google Scholar PubMed
12. Majumdar AK. Free-space laser communication performance in the atmospheric channel. J Opt Fiber Commun 2005;2:345–96.10.1007/978-0-387-28677-8_3Search in Google Scholar
©2016 by De Gruyter
Articles in the same Issue
- Frontmatter
- Reviews
- A Review on Free Space Optics with Atmospheric and Geometrical Attenuation
- Devices
- Effect of Chirality on Dispersion Characteristics of Uniaxial Anisotropic Chiral Elliptical Waveguide
- Design and Analysis of the LIFG Filters for Coupling Efficiency Near 100 % Range for a Desired Bandwidth
- Networks
- A Novel Dynamic Physical Layer Impairment-Aware Routing and Wavelength Assignment (PLI-RWA) Algorithm for Mixed Line Rate (MLR) Wavelength Division Multiplexed (WDM) Optical Networks
- Performance Evaluation of Passive Optical Network Using Different Modulation Formats
- Systems
- Design and Performance Analysis of 2D OCDMA System with Polarization States
- Performance Analysis of Coherent Optical Communication System for M-QAM Higher Modulation Level
- 6 × 20 Gbps Hybrid WDM–PI Inter-satellite System under the Influence of Transmitting Pointing Errors
- Raman Amplification in WDM Optical Communication Systems: A System Perceptive
- Performance Evaluation of OWC Using Different Modulation Techniques
- Efficient Routing of Star–Ring Hybrid Topology with Optical Add and Drop Multiplexer in DWDM System
- Performance Analysis of DWDM System for Different Modulation Schemes Using Variations in Channel Spacing
Articles in the same Issue
- Frontmatter
- Reviews
- A Review on Free Space Optics with Atmospheric and Geometrical Attenuation
- Devices
- Effect of Chirality on Dispersion Characteristics of Uniaxial Anisotropic Chiral Elliptical Waveguide
- Design and Analysis of the LIFG Filters for Coupling Efficiency Near 100 % Range for a Desired Bandwidth
- Networks
- A Novel Dynamic Physical Layer Impairment-Aware Routing and Wavelength Assignment (PLI-RWA) Algorithm for Mixed Line Rate (MLR) Wavelength Division Multiplexed (WDM) Optical Networks
- Performance Evaluation of Passive Optical Network Using Different Modulation Formats
- Systems
- Design and Performance Analysis of 2D OCDMA System with Polarization States
- Performance Analysis of Coherent Optical Communication System for M-QAM Higher Modulation Level
- 6 × 20 Gbps Hybrid WDM–PI Inter-satellite System under the Influence of Transmitting Pointing Errors
- Raman Amplification in WDM Optical Communication Systems: A System Perceptive
- Performance Evaluation of OWC Using Different Modulation Techniques
- Efficient Routing of Star–Ring Hybrid Topology with Optical Add and Drop Multiplexer in DWDM System
- Performance Analysis of DWDM System for Different Modulation Schemes Using Variations in Channel Spacing
