IEEE 802.15.4 / ZIGBEE WIRELESS NETWORK AS A BASIS FOR UAV NAVIGATION SYSTEM

Authors

  • V. M. Sineglazov National Aviation University
  • E. V. Daskal National Aviation University

DOI:

https://doi.org/10.18372/1990-5548.52.11863

Keywords:

Unmanned aerial vehicle, Global Positioning System, mesh-network, ZigBee, IEEE 802.15.4, wireless personal area network.

Abstract

Modern unmanned aerial vehicle navigation systems are highly dependent on Global Positioning System signals. Since Global Positioning System signals in dense urban housing areas, in tunnels or indoors may be unreliable, unmanned aerial vehicle will not be able to fulfill its tasks if needed to pass such zones. An unmanned aerial vehicle navigation system based on on the increasingly popular radio standard IEEE 802.15.4 / ZigBee is proposed. A description of such networks and their advantages for unmanned aerial vehicle positioning are given.

Author Biographies

V. M. Sineglazov, National Aviation University

Aviation Computer-Integrated Complexes Department, Educational & Research Institute of Information and Diagnostic Systems

Doctor of Engineering Science. Professor

E. V. Daskal, National Aviation University

Aviation Computer-Integrated Complexes Department, Educational & Research Institute of Information and Diagnostic Systems

Post-graduate student

References

А. А. Loskutnikov, N. S. Senjushkin, and V. V. Paramonov, “UAV automatic control systems,” Young Scientist, no. 9, pp. 56–58, 2011. (in Russian)

I. E. Osipov, “Mesh-networks: technologies, applications, equipment,” Technologies and means of communication, no. 4, pp. 39–45, 2006. (in Russian)

А. Vyrelkin, and А. Koucheryavy, “Using of Unmanned Aerial Vehicles for Solving the Problems of the Smart City,” Telecom IT, vol. 5, Iss. vol. 5, Iss. 1, pp. 105–113, 2017. (in Russian).

А. А. Bodrova, and V. I. Logvin, “Positioning and interaction in wireless sensor networks” Young Scientist, no. 6, pp. 129–132, 2015.

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Section

THEORY AND METHODS OF SIGNAL PROCESSING