LOCAL POLARIMETRIC SYSTEM FOR MEASURING AIRCRAFT`S NAVIGATION AND PILOTING PARAMETERS

Authors

  • A. E. Klochan National Transport University, Kyiv
  • A. Al-Ammouri National Transport University, Kyiv
  • V. K. Subbotyna National Transport University, Kyiv
  • O. P. Palchik National Transport University, Kyiv
  • M. M. Dekhtiar National Transport University, Kyiv

DOI:

https://doi.org/10.18372/1990-5548.57.13246

Keywords:

Locally restricted airspace segment, piloting and navigation parameters, polarimetric measurement method, mathematical modeling, planar isotropic dielectric plate

Abstract

The paper considers questions of invention the local optical system for measuring navigation and piloting parameters on base on polarimetric technologies. Such system is aimed to increase the sensitivity and accuracy of definition the aircraft navigation and piloting parameters in a locally restricted airspace segment with high traffic density. The paper also deals with regarding existing methods and systems for measuring the aircraft’s piloting and navigation parameters, as well as suggest polarimetric method and the polarimetric system, that realize it. The polarimetric method for measuring the aircraft`s piloting and navigation parameters consist in measuring the polarization plane azimuth of transmitted beam and determining the spatial and plane incident angles of the incident beam, as well as the aircraft`s attitude. Proposed local polarimetric system for measuring aircraft`s navigation and piloting parameters consist two main units: measurement block and radiation block. Radiation block emits the polarized radiation with certain polarization plane azimuth and with certain dispersion aperture. Measurement block measure the polarization plane azimuth of transmitted beam and calculate polarization plane azimuth of incident radiation and its angle of incident. The proposed system allows to measure the piloting, as well as, navigation parameters at the same time with high accuracy and sensitivity. Modeling the operation of the measurement channel shows that dependencies have linear character and match well with measuring parameters. Paper results can be applied in the process of elaboration and implementation of polarimetric navigation system, for example, and requires additional theoretical and practical research.

Author Biographies

A. E. Klochan, National Transport University, Kyiv

Department of Information Analysis and Information Security

Post-graduate student

A. Al-Ammouri, National Transport University, Kyiv

Department of Information Analysis and Information Security

Doctor of Engineering Science. Professor

V. K. Subbotyna, National Transport University, Kyiv

Department of Information Analysis and Information Security

Senior Lecturer

O. P. Palchik, National Transport University, Kyiv

Department of Information Analysis and Information Security

Assistant

M. M. Dekhtiar, National Transport University, Kyiv

Department of Information Analysis and Information Security

Assistant

References

Annual Report of the ICAO Council: 2017.

Air Navigation Report 2016 Edition, 2016.

V. I. Cheipzhenko and V. O. Volkogon, The role of modern concepts of transformation the CNS/ATM systems for providing autonomous flights of aircraft,” Actual Problems of Automation and Information Technologies, 19, 2015: 112–120. Print (in Ukrainian)

A. Klochan, V. Romanenko, and V. Tronko, “Polarimetric method for UAV attitude determination during landing approach and landing,” 2015 IEEE 3rd International conference “Actual Problems of Unmanned Aerial Vehicles Developments (APUAVD)”. Kyiv, Ukraine, National Aviation University. 2015, pp. 202–20. Print

A. Klochan, Ali Al-Ammouri, V. Romanenko, and V. Tronko, “Application of polarimetry in aviation navigation systems,” 2016 IEEE 4th International conference “Methods and Systems of Navigation and Motion Control (MSNMC)”. Kyiv, Ukraine, National Aviation University. 2016, pp. 236–66. Print

A. Klochan, Ali Al-Ammouri, Hafed I. S. Abdulsalam, “Advanced UAV Landing System Based on Polarimetric Technologies,” 2017 IEEE 4th International Conference “Actual Problems of Unmanned Aerial Vehicles Developments (APUAVD)”: Kyiv, Ukraine National Aviation University. 2017, pp. 147–150. Print

A. Klochan, Аli. Al-Ammouri, V. Kharuta, L. Osipa, “Local Polarimetric Aviation Navigation System,” Proceedings 2018 IEEE 5th International conference “Methods and Systems of Navigation and Motion Control (MSNMC),” October, 16-18, 2018, Kyiv, Ukraine, 2018, pp. 119–122.

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TRANSPORT SYSTEMS