Optical Wireless Communications Operated at Long-Wave Infrared Radiation

• Autorzy: Mikolajczyk Janusz , Szabra Dariusz , Prokopiuk Artur , Achtenberg Krzysztof , Wojtas Jacek , Bielecki Zbigniew

Identyfikatory

DOI

10.24425/ijet.2020.131889

• Języki publikacji: EN

Abstrakty

EN

This paper presents some construction analysis and test results of a Free Space Optics system operating at the wavelength of 9.35 μm. In the system, a quantum cascade laser and a photoreceiver with mercury cadmium telluride photodetectors were used. The main parameters of these elements were discussed taking into account a data link operation. It also provides to determine a data range for various weather conditions related to scattering and scintillation. The results of numerical analyses defined the properties of currently available FSO technologies working in the near infrared or in the short infrared range of spectrum versus the performances of the developed system. The operation of this system was verified in three different test environments. The obtained results may also contain important issues related to the practical application of any FSO system.

Słowa kluczowe

EN

optical wireless communication; free space optics; quantum cascade laser; optoelectronics; telecommunications

• Wydawca: Polish Academy of Sciences, Committee of Electronics and Telecommunication
• Czasopismo: International Journal of Electronics and Telecommunications
• Rocznik: 2020
• Tom: Vol. 66, No. 2
• Strony: 383--387
• Opis fizyczny: Bibliogr. 10 poz., for., schem., wykr.

Twórcy

autor

Mikolajczyk Janusz

• Military University of Technology, Warsaw, Poland

autor

Szabra Dariusz

• Military University of Technology, Warsaw, Poland

autor

Prokopiuk Artur

• Military University of Technology, Warsaw, Poland

autor

Achtenberg Krzysztof

• Military University of Technology, Warsaw, Poland

autor

Wojtas Jacek

• Military University of Technology, Warsaw, Poland

autor

Bielecki Zbigniew

• Military University of Technology, Warsaw, Poland

Bibliografia

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• [3] S. Rajbhandari, Z. Ghassemlooy, J. Perez, H. Le Minh, M. Ijaz, E. Leitgeb, G. Kandus, and V. Kvicera, “On the study of the FSO link performance under controlled turbulence and fog atmospheric conditions,” in Proc. 11th Int. Conf. Telecommun. ConTEL, 2011.
• [4] T.H. Ho, S. Trisno, A. Desai, J. Llorca, S.D. Milner, and Ch.C. Davis, "Performance and analysis of reconfigurable hybrid FSO/RF wireless networks", in Proc. SPIE 5712, Free-Space Laser Communication Technologies XVII, doi: 10.1117/12.592820, April 2005.
• [5] T. Plank, E. Leitgeb, P. Pezzei, and Z. Ghassemlooy, “Wavelength-selection for high data rate Free Space Optics (FSO) in next generation wireless communications,” in Proc. 17th Eur. Conf. Networks Opt. Commun., 1–5, DOI: 10.1109/NOC.2012.6249909, IEEE, 2012.
• [6] P. Gutowski, P. Karbownik, A. Trajnerowicz, K. Pierściński, D. Pierścińska, I. Sankowska, J. Kubacka-Traczyk, M. Sakowicz, M. Bugajski, "Room-temperature AlInAs/InGaAs/InP quantum cascade lasers”, Photonics Letters of Poland 6 (4), doi: 10.4302/plp.2014.4.10, pp. 142-144, 2014.
• [7] P. Kalinowski, J. Mikołajczyk, A. Piotrowski, and J. Piotrowski, “Recent advances in manufacturing of miniaturized uncooled IR detection modules,” Semicond. Sci. Technol. 34(3), 33002, DOI: 10.1088/1361-6641/aaf458, 2019.
• [8] S. Mughal, S. Shah, S. Afridi, M.I. Bhatti, and Y. Sandhu, “Analysis/Simulation of Unavailability of FSO Link Due to FOG in Karachi & Lahore,” Int. J. Eng. Innocation Res. 1, pp. 567–573, 2012.
• [9] J. Mikołajczyk, Z. Bielecki, M. Bugajski, J. Piotrowski, J. Wojtas, W. Gawron, D. Szabra, and A. Prokopiuk, “Analysis of free-space optics development,” Metrol. Meas. Syst., vol. 24 (4), pp. 653-674, doi: 10.1515/mms-2017-0060, 2017.
• [10] A. Ahmed, S. Gupta, Y. Luthra, K. Gupta, and S. Kaur, “Analysing the Effect of Scintillation on Free Space Optics Using Different Scintillation Models,” in Proc. 6th Int. Conf. Signal Process. Integr. Networks, pp. 799–804, 2019.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).