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Improved jamming resistance using electronically steerable parasitic antenna radiator

Abstrakt

This paper presents an idea of using an Electronically Steerable Parasitic Antenna Radiator (ESPAR) for jamming suppression in IEEE 802.11b networks. Jamming (intentional interference) attacks are known to be effective and easy to perform, which may impose connectivity problems in applications concerning Internet of Things (IoT). In our paper, theoretical considerations are presented and the results of experiments performed in anechoic chamber are examined. During the test, IEEE 802.11b standard was used to provide communication between transmitter and receiver, and Software Defined Radio (SDR) device, which was used as a source of an intentional interference (jammer). The results showed that connectivity during jamming attack can be improved by using switched-beam antenna enhancing system’s bandwidth.

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pobrano 108 razy
Wersja publikacji
Accepted albo Published Version
Licencja
Copyright (2017 IEEE, European Union)

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Informacje szczegółowe

Kategoria:
Aktywność konferencyjna
Typ:
publikacja w wydawnictwie zbiorowym recenzowanym (także w materiałach konferencyjnych)
Tytuł wydania:
IEEE EUROCON 2017 -17th International Conference on Smart Technologies strony 496 - 500
Język:
angielski
Rok wydania:
2017
Opis bibliograficzny:
Tarkowski M., Rzymowski M., Nyka K., Kulas Ł.: Improved jamming resistance using electronically steerable parasitic antenna radiator// IEEE EUROCON 2017 -17th International Conference on Smart Technologies/ : , 2017, s.496-500
DOI:
Cyfrowy identyfikator dokumentu elektronicznego (otwiera się w nowej karcie) 10.1109/eurocon.2017.8011161
Bibliografia: test
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  4. O. G. Vendik and D. S. Kozlov, "Phased Antenna Array With a Sidelobe Cancellation for Suppression of Jamming," in IEEE Antennas and Wireless Propagation Letters, vol. 11, no. , pp. 648-650, 2012. otwiera się w nowej karcie
  5. B. Widrow, K. Duvall, R. Gooch and W. Newman, "Signal cancellation phenomena in adaptive antennas: Causes and cures," in IEEE Transactions on Antennas and Propagation, vol. 30, no. 3, pp. 469-478, May 1982. otwiera się w nowej karcie
  6. T. Hanson, "Subarrays, spatial dither and coherent interference rejection," Southeastcon '92, Proceedings., IEEE, Birmingham, AL, 1992, pp. 238-241 vol.1. otwiera się w nowej karcie
  7. J. J. Luther, S. Ebadi and X. Gong, "A Microstrip Patch Electronically Steerable Parasitic Array Radiator (ESPAR) Antenna With Reactance- Tuned Coupling and Maintained Resonance," in IEEE Transactions on Antennas and Propagation, vol. 60, no. 4, pp. 1803-1813, April 2012. otwiera się w nowej karcie
  8. Chen Sun, A. Hirata, T. Ohira and N. C. Karmakar, "Fast beamforming of electronically steerable parasitic array radiator antennas: theory and experiment," in IEEE Transactions on Antennas and Propagation, vol. 52, no. 7, pp. 1819-1832, July 2004.R. otwiera się w nowej karcie
  9. A. Poisel. Modern Communications Jamming Principles and Techniques. Artech House Publishers, 2006
  10. M. Rzymowski and Ł. Kulas, "Design, realization and measurements of enhanced performance 2.4 GHz ESPAR antenna for localization in wireless sensor networks," Eurocon 2013, Zagreb, 2013, pp. 207-211. otwiera się w nowej karcie
  11. M. Rzymowski, K. Nyka and Ł. Kulas, "Enhanced switched parasitic antenna with switched active monopoles for indoor positioning systems," 2014 20th International Conference on Microwaves, Radar and Wireless Communications (MIKON), Gdansk, 2014, pp. 1-4. otwiera się w nowej karcie
  12. M. Rzymowski, P. Woznica and L. Kulas, "Single-Anchor Indoor Localization Using ESPAR Antenna," in IEEE Antennas and Wireless Propagation Letters, vol. 15, no. , pp. 1183-1186, 2016. otwiera się w nowej karcie
Weryfikacja:
Politechnika Gdańska

wyświetlono 139 razy

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