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Analysis of inter-satellite free-space optical link performance considering different system parameters

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Języki publikacji
EN
Abstrakty
EN
The welcome and adaptation of optical wireless technology by the modern era has brought forward the concept of an inter-satellite free-space optical communication system. In the present work, I study the combined effect of selection of different operating wavelengths and detector types along with the pointing errors at the transmitter and receiver side on the performance of an inter-satellite free-space optical link. The link performance has been optimized by measuring and analyzing the bit error rate and quality-factor of received signal under different scenarios. Performance of the inter-satellite link has also been investigated considering different modulation formats and data rates for LEO and MEO distances.
Twórcy
autor
  • Amity School of Engineering and Technology, Amity University, Noida, 201-303, India
Bibliografia
  • [1] M.A. Esmail, A. Ragheb, H. Fathallah, M.S. Alouini, Investigation and demonstration of high speed full-optical hybrid FSO/Fiber communication system under light sand storm condition, IEEE Photon J. 9 (1) (2017) 1–13.
  • [2] A. Viswanath, V.K. Jain, S. Kar, Analysis of earth-to-satellite free-space optical link performance in the presence of turbulence, beam-wander induced pointing error andweather conditions for different intensity modulation schemes, IET Commun. 9 (18) (2015) 2253–2258.
  • [3] H. Kaushal, G. Kaddoum, Optical communication in space: challenges and mitigation techniques, IEEE Comm. Surve. Tut. 19 (1) (2016) 57–96.
  • [4] S. Kaur, A. Kakati, Analysis of free space optics link performance considering the effect of different weather conditions and modulation formats for terrestrial communication, J. Opt. Commun. (2018), http://dx.doi.org/10.1515/joc-2018-0010.
  • [5] F. Heine, H. Kämpfner, R. Lange, R. Czichy, R. Meyer, M. Lutzer, Optical inter-satellite communication operational, in: MILCOM 2010 Military Communication Conference, 2010, pp. 1583–1587.
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  • [8] Z. Sodnik, B. Furch, H. Lutz, Optical intersatellite communication, IEEE J. Sel. Top. Quantum Electron. 16 (5) (2010) 1051–1057.
  • [9] A.H. Hashim, F.D. Mahad, S.M. Idrus, A. Supa, Modeling and performance study of inter-satellite optical wireless communication systems, Proc. IEEEInternational Conference on Photonics (2010) 1–4.
  • [10] W. Rosenkranz, S. Schaefer, Receiver design for optical inter-satellite links based on digital signal processing, 18th International Conference on Transparent Optical Networks (ICTON) (2016) 1–4, http://dx.doi.org/10.1109/ICTON.2016.7550381.
  • [11] Kripa Vimal, Shanthi Prince, System analysis for optimizing various parameters to mitigate the effects of satellite vibration on inter-satellite optical wireless communication, IEEE International Conference on Signal Processing, Informatics, Communication and Energy Systems (SPICES) (2015) 1–4, http://dx.doi.org/10.1109/SPICES 2015.7091492.
  • [12] S. Pradhan, P.K. Sahu, R.K. Giri, B. Patnaik, Inter-satellite optical wireless communication system design using diversity techniques, International Conference on Microwave, Optical and Communication Engineering (ICMOCE) (2015) 250–253, http://dx.doi.org/10.1109/ICMOCE.2015.7489738.
  • [13] S. Arnon, Performance of a laser satellite network with an optical preamplifier, J. Opt. Soc. Am. A 22 (4) (2005) 708–715.
  • [14] S. Bloom, E. Korevaar, J. Schuster, H. Willebrand, Understanding the performance of free space optics, J. Opt. Network 2 (6) (2003) 178–200.
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Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5f35edba-9e67-4bd3-8aed-99d01f42c383
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