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Optical and Quantum Electronics

Erschienen in:

01.11.2018

Reduction in transmitter power requirement for earth-to-satellite and satellite-to-earth free space optical links with spatial diversity

verfasst von: Anjitha Viswanath, Virander Kumar Jain, Subrat Kar

Erschienen in: Optical and Quantum Electronics | Ausgabe 11/2018

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Abstract

In the scenario of first laser communication relay satellite being launched into geostationary earth orbit, we evaluate the reduction in transmitter power requirement for earth-to-satellite and satellite-to-earth free space optical links in presence of turbulence and various weather conditions using spatial diversity technique. In channel modeling, Beer Lambert Law incorporates the weather effects. The log-normal probability density function (pdf) models weak turbulence and gamma–gamma pdf moderate to strong turbulence. Using the combined channel state pdf, bit error rate (BER) expressions are derived for on-off keying (OOK), M-ary pulse position modulation (M-PPM) and M-ary differential PPM (M-DPPM) schemes. From the BER plots, we evaluate the minimum average received power required to achieve a desired BER for all three schemes for different channel conditions. Subsequently, minimum transmitter power requirement is evaluated for both uplink and downlink using the range equation. It is observed that presence of moderate, light and thin fog cause additional power requirement. Also, among the three schemes, M-PPM scheme requires the least transmitter power, followed by M-DPPM and OOK schemes. Further, it is seen that the transmitter diversity or multiple input single output technique reduces the uplink minimum transmitter power requirement, whereas for downlink aperture averaging and receiver diversity or single input multiple output techniques can achieve the same. The power requirement for uplink is 8–10 dB more as compared to downlink in presence of turbulence and various weather conditions.

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Andrews, L.C., Phillips, R.L.: Laser Beam Propagation Through Random Media. SPIE Press, Washington (2005)CrossRef

Andrews, L.C., Phillips, R.L., Hopen, C.Y.: Laser Beam Scintillation with Applications. SPIE Press, Washington (2001)CrossRef

Arnon, S., Rotman, S., Kopeika, N.S.: Optimum transmitter optics aperture for satellite optical communication. IEEE Trans. Aerosp. Electr. Syst. 34(2), 590–596 (1998)ADSCrossRef

Arnon, S., Uysal, M., Ghassemlooy, Z., Xu, Z., Cheng, J.: Optical wireless communications. IEEE J. Sel. Areas Commun. 33(9), 1733–1737 (2015)CrossRef

Barcik, P., Hudcov, L.: Measurement of spatial coherence of light propagating in a turbulent atmosphere. Radio Eng. 22(1), 341–345 (2013)

Bouchet, O.: Free Space Optics: Propagation and Communication. Wiley Press, London (2006)CrossRef

Chaudhary, S., Amphawan, A.: The role and challenges of free space optical systems. J. Opt. Commun. 35(4), 327–334 (2014)CrossRef

Dios, F., Rubio, J., Rodrfguez, A., Comern, A.: Scintillation and beam-wander analysis in an optical ground station satellite uplink. Appl. Opt. 43(19), 3866–3873 (2004)ADSCrossRef

Fidler, F., Knapek, M., Horwath, J., Leeb, W.R.: Optical communications for high-altitude platforms. IEEE J. Sel. Topics Quantum Electr. 16(5), 1058–1070 (2010)ADSCrossRef

First space data highway laser relay in orbit. http://www.esa.int. Accessed Jan 2016

Gappmair, W.: Novel results on pulse position modulation performance for terrestrial free-space optical links impaired by turbulent atmosphere and pointing errors. IET Commun. 6(10), 1300–1305 (2012)MathSciNetCrossRef

Ghassemlooy, Z., Popoola, W., Rajbhandari, S.: Optical Wireless Communication. CRC Press, Boca Raton (2012)

Ghassemlooy, Z., Popoola W., et al.: A synopsis of modulation techniques for wireless infrared communication. In: Proceedings of International Conference on Transparent Optical Networks Mediterranean Winter, pp. 1–6 (2007)

Gomez, A.R., Dios, F., et al.: Temporal statistics of the beam-wander contribution to scintillation in ground-to-satellite optical links: an analytical approach. Appl. Opt. 44(21), 4574–4581 (2005)ADSCrossRef

Guo, H., Luo, B., Ren, Y., Zhao, S., Danq, A.: Influence of beam wander on uplink of ground-to-satellite laser communication and optimization for transmitter beam radius. Opt. Lett. 35(12), 1977–1979 (2010)ADSCrossRef

Haykin, S.: Digital Communications. Wiley, London (2006)

Jiang, Y., Tao, K., Song, Y., Fu, S.: Packet error rate analysis of OOK, DPIM and PPM modulation schemes for ground-to-satellite laser uplink communications. Appl. Opt. 53(7), 1268–1273 (2014)ADSCrossRef

Karafolas, N., Baroni, S.: Optical satellite networks. J. Lightwave Technol. 18(12), 1792–1806 (2000)ADSCrossRef

Kaur, P., Jain, V.K., Kar, S.: Performance analysis of FSO array receivers in presence of atmospheric turbulence. IEEE Photonics Lett. Tecnol. 26(12), 1165–1168 (2014)CrossRef

Kazemi, A.A., Panahi, A.: Space based laser systems for inter-satellite communications. In: Proceedings of SPIE, pp. 83680H-1–83680H-9 (2012)

Khalighi, M., Schwartz, N., Aitamer, N., Bourennane, S.: Fading reduction by aperture averaging and spatial diversity in optical wireless systems. J. Opt. Commun. Netw. 1(6), 580–593 (2009)CrossRef

Khalighi, M., Uysal, M.: Survey on free space optical communication: a communication theory perspective. IEEE Commun. Surv. Tutor. 16(4), 2231–2258 (2014)CrossRef

Latinovic, V.: Advanced Optical Communication Systems. Clanrye International, New York (2015)

Li, X., Ma, J.: Optimum signal input distribution design in the presence of random pointing jitter for intersatellite optical communications. Opt. Laser Technol. 45, 705–707 (2013)ADSCrossRef

Liao, H., Zhang, Q., et al.: Performance evaluation of channel coding and aperture averaging for satellite-to-ground optical communications with APD receivers. In: Proceedings of 6th International Conference on Communication and Network, pp. 899–902 (2011)

Liu, X.: Optimal transmitter power of an intersatellite optical communication system with reciprocal Pareto fading. Appl. Opt. 49(5), 915–919 (2010)ADSCrossRef

Ma, J., Jiang, Y., Yu, S., Tan, L., Du, W.: Packet error rate analysis of OOK, DPIM and PPM modulation schemes for ground-to-satellite optical communications. Opt. Commun. 283(2), 237–242 (2010)ADSCrossRef

Majumdar, A.K.: Advanced Free Space Optics (FSO)—A Systems Approach. Springer, New York (2015)

Majumdar, A.K., Ricklin, J.C.: Free Space Laser Communications : Principles and Advances. Springer, New York (2007)

Nistazakis, H.E., Sandalidis, H.G., et al.: Optical wireless links with spatial diversity over strong turbulence channels. IEEE Trans. Wirel. Commun. 8(2), 951–957 (2009)CrossRef

Panahi, A., Kazemi, A.A.: High speed laser communication network for satellite systems. In: Proceedings of SPIE, pp. 80260L-1–80260L-12 (2011)

Patnaik, B., Sahu, P.K.: Inter-satellite optical wireless communication system design and simulation. IET Commun. 6(16), 2561–2567 (2012)CrossRef

Prudnikov, A., Brychkov, Y., Marichev, O.: Integrals and Series. Gordon and Breach Publishers, Amsterdam (1986)MATH

Rajbhandari, S., Ghassemlooy, Z., Haigh, P., Kanesan, T., Tang, X.: Experimental error performance of modulation schemes under a controlled laboratory turbulence FSO channel. J. Lightwave Technol. 33(1), 244–250 (2015)ADSCrossRef

Sandalidis, H.G.: Performance analysis of a laser ground station-to-satellite link with modulated gamma distributed irradiance fluctuations. J. Opt. Commun. Netw. 2(11), 938–943 (2010)CrossRef

Sandalidis, H.G.: Performance of a laser earth-to-satellite link over turbulence and beam wander using the modulated gamma-gamma irradiance distribution. Appl. Opt. 50(6), 952–961 (2011)ADSCrossRef

Sodnik, Z., Furch, B., Lutz, H.: Optical intersatellite communication. IEEE J. Sel. Top. Quantum Electr 16(5), 1051–1057 (2010)ADSCrossRef

Successful launch of the first laser telecommunication satellite of the space data highway. http://www.edrs-spacedatahighway.com/news/items/success-launch. Accessed Feb 2016

Sun, X., Skillman, D.R.: Free space laser communication experiments from earth to the lunar reconnaissance orbiter in lunar orbit. Opt. Express 21(2), 1865–1871 (2013)ADSCrossRef

The wolfram functions. http://www.functions.wolfram.com/07.34.21.0013.01. Accessed Nov 2015

Tolker-Niesen, T., Oppenhaeuser, G.: In orbit test result of an operational optical intersatellite link between ARTEMIS and SPOT4, SILEX. In: Proceedings of SPIE, pp. 4635-1–4635-15 (2002)

Toyoshima, M.: Trends in satellite communication and the role of optical free-space communications. J. Opt. Netw. 4(6), 300–311 (2005)CrossRef

Toyoshima, M., Takayama, Y.: Ground-to-satellite laser communication experiments. IEEE Aerosp. Electron. Syst. Mag. 23(8), 10–18 (2008)CrossRef

Viswanath, A., Gopal, P., Jain, V.K., Kar, S.: Performance enhancement by aperture averaging in terrestrial and satellite free space optical links. IET Optoelectr. 10(3), 111–117 (2016)CrossRef

Viswanath, A., Jain, V.K., Kar, S.: Analysis of earth-to-satellite free-space optical link performance in the presence of turbulence, beam-wander induced pointing error and weather conditions for different intensity modulation schemes. IET Commun. 9(18), 2253–2258 (2015)CrossRef

Viswanath, A., Kaushal, H., Jain, V.K., Kar, S.: Evaluation of performance of ground to satellite free space optical link under turbulence conditions for different intensity modulation schemes. In: Proceedings of SPIE Photonics West, San Francisco, USA, pp. 8971-1–8971-12 (2014)

Viswanath, A., Jain, V.K., Kar, S.: Experimental evaluation of the effect of aperture averaging technique on the performance of free space optical communication link for different intensity modulation schemes. In: COMmunication Systems and NETworkS (COMSNETS), Bangalore, India, pp. 1–5 (2015)

Titel: Reduction in transmitter power requirement for earth-to-satellite and satellite-to-earth free space optical links with spatial diversity
verfasst von: Anjitha Viswanath
Virander Kumar Jain
Subrat Kar
Publikationsdatum: 01.11.2018
Verlag: Springer US
Erschienen in: Optical and Quantum Electronics / Ausgabe 11/2018
Print ISSN: 0306-8919
Elektronische ISSN: 1572-817X
DOI: https://doi.org/10.1007/s11082-017-1257-3

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