The magnetic field curvature correction algorithm dedicated for helmet mounted cueing systems

• Autorzy: Adamski M. , Adamski M. , Szelmanowski A.

Identyfikatory

DOI

10.5604/01.3001.0012.2770

• Języki publikacji: EN

Abstrakty

EN

The article presents the new built in Poland helmet mounted cueing system NSC-1 Orion with a magnetic method, dedicated to the multi-purpose helicopters W-3PL Gluszec. This system uses the magnetic field generated by the system of three mutually orthogonal electric coils. The principle of operation of this system is described and the method of determining the angular position of the pilot's helmet relative to the helicopter's cabin using the reference magnetic field and the directional cosines matrix are discussed. Electrical flat coils, constructed in the Polish Air Force Institute of Technology (AFIT), generating a magnetic field with curved symmetry axis characteristics, causing errors in determining the angular position of the pilot's helmet are shown. As a way to minimize these errors, an original proprietary algorithm for correcting the negative impact of the magnetic field curvature generated by the on-board system has been presented. Mathematical relations describing the presented correction process as well as selected results of simulation and experimental investigations in the area of inaccuracy of the "before" and "after" systems of applying the developed algorithm were given. Inaccuracies determined from computer simulations of the developed mathematical relations were compared with experimental data from magnetic field measurements using the integrated three-axis sensor ADIS-16405, used in the laboratory of the AFIT Avionics Division for helmet control of the angular position of the moving observation and sighting head and reflector-search light.

Słowa kluczowe

EN

transport; avionics; helmet-mounted cueing systems; errors of the angular positioning; magnetic field measurement; flat coil profile modelling

• Wydawca: Łukasiewicz Research Network - Institute of Aviation ; European Science Society of Powertrain and Transport KONES Poland ; Wydawnictwo Instytutu Technicznego Wojsk Lotniczych
• Czasopismo: Journal of KONES
• Rocznik: 2018
• Tom: Vol. 25, No. 2
• Strony: 15--30
• Opis fizyczny: Bibliogr. 17 poz., rys.

Twórcy

autor

Adamski M.

• Polish Air Force Academy, Department of Aviation Dywizjonu 303 Street 35, 08-521 Deblin, Poland tel.: +48 261 517 423, fax: +48 261 517 421

autor

Adamski M.

• Polish Air Force Academy, Department of Aviation Dywizjonu 303 Street 35, 08-521 Deblin, Poland tel.: +48 261 517 423, fax: +48 261 517 421

autor

Szelmanowski A.

• Air Force Institute of Technology Ksiecia Boleslawa Street 6, 01-494 Warsaw, Poland tel.: +48 261 851 603, fax: +48 261 851 646

Bibliografia

• [1] Adamski, M., Adamski, M, Szelmanowski, A., Algorithm for determining the angular position of the pilot’s helmet to control the on-board weapon’s control system, Journal of KONES, Vol. 22, No. 2, pp. 7-16, ISSN 1231-4005, Warsaw 2015.
• [2] ADIS 16405, Analog Devices, Triaxial Inertial Sensor with Magnetometer, datasheet, www.analog.com.
• [3] Boniol, F., New Challenges for Future Avionic Architectures, In: Amine, A., Otmane, A., Bellatreche, L. (eds), Modeling Approaches and Algorithms for Advanced Computer Applications, Studies in Computational Intelligence, Springer, Vol. 488, Cham 2013.
• [4] Chu, Y., Numerical Calculation for the Magnetic Field in Current-Carrying Circular Arc Filament, IEEE Transactions on Magnetics, 34, 1998.
• [5] Collinson, R. P. G., Introduction to Avionics, Springer Netherlands 2011.
• [6] Conway, J. T., Exact Solutions for the Magnetic Fields of Axisymmetric Solenoids and Current Distributions, IEEE Transactions on Magnetics, Vol. 37, No. 4, July 2001.
• [7] IEEE SENSORS JOURNAL, Advances in Magnetic Field Sensors, Vol. 10, No. 6, June 2010.
• [8] Knoepfel, H. E., Magnetic Fields, a Comprehensive Theoretical Treatise for Practical Use, a Wiley-Interscience Publication, Toronto 2000.
• [9] Lewitowicz, J., Szelmanowski, A., Pazur, A., Michalak, S., Janik, P., Helmet-mounted display and cueing systems as pilot aids for aviation/maritime search and rescue missions, Scientific Journals of the Maritime University of Szczecin, 52 (124), Szczecin 2017.
• [10] Rash, C., Helmet Displays in Aviation, Helmet Mounted Display, Design Issues for RotaryWing Aircraft, USA, Fort Rucker 2009.
• [11] Schill, R. A., General Relation for the Vector Magnetic Field of a Circular Current Loop: A Closer Look, IEEE Transactions on Magnetics, Vol. 39, No. 2, March 2003.
• [12] Selvaggi, J. P., Multipole analysis of circular cylindrical magnetic systems, Rensselaer Polytechnic Institute, Troy, New York 2005.
• [13] Selvaggi, J. P., Salon, S., Kwon, O. M., Chari, M. V. K., Calculating the External Magnetic Field From Permanent Magnets in Permanent-Magnet Motors-An Alternative Method, IEEE Transactions on Magnetics, Vol. 40. No. 5, September 2004.
• [14] Simpson, J. C., Simple Analytic Expressions for the Magnetic Field od a Circular Current Loop, NASA/TM-2013-217919, NASA, Kennedy Space Center, Florida, February 2001.
• [15] Szelmanowski, A., Helmet-mounted cueing system NSC-1 Orion for military helicopters with avionic integrated system, AFIT Publication, ISBN 978-83-61021-76-6, Warsaw 2013.
• [16] Szelmanowski, A., Janik, P., Sobielarski M., Possibilities of new technologies implementation in helmet-mounted cueing and display systems for Polish military helicopters, Journal of KONES Powertrain and Transport, Vol. 23, No. 4, 2016.
• [17] Szelmanowski, A., Michalak, S., Witos, M., Pazur, A., Janik, P., Paterek, W., Gaj, A., Bulikowska, J., Magnetic field sensors overview and example application in helmet mounted cueing system, 2nd IEEE Conf. on Advances In Magnetics, La Thuile, Italy, Feb., 4-7, 2018.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).