Application for Communication Algorithm Design via CAN with CANaerospace Protocol

Authors

  • Premysl Janu Department of Radar Technology, University of Defence, Brno, Czech Republic

Keywords:

Bus utilization, CAN, CANaerospace, Communication analysis, Cycle matrix, MATLAB

Abstract

The paper deals with an introduction of the most commonly used data buses at aircraft on-board electronic systems with a focus on economically accessible buses. There is explained a reason of these buses usage. The main representative is selected here and that is Controller Area Network (CAN). CAN has its modification for avionic systems CANaerospace. For avionic systems, it is necessary to access to the bus at precisely defined time intervals according to certain schedule, which is called Cycle Matrix. It is necessary to devise the algorithm for given avionic system. Thus the core of the paper is mathematical analysis and detailed description of user application for Cycle Matrix design in the development environment MATLAB. The application is intended for users, which are knowledgeable in the problem of the bus CAN and it will allow communication algorithm design of any avionic system.

Author Biography

  • Premysl Janu, Department of Radar Technology, University of Defence, Brno, Czech Republic

    Department of Radar Technology, Faculty of Military Technology, Captain.

References

JANU, P. Analysis of CANaerospace Protocol Communication Quality in Aviation System. Advances in Electrical and Computer Engineering. Romania: Romanian Academy of Technical Sciences Stefan cel Mare University of Suceava, 2014, vol. 14. no. 1, p. 81-86. https://doi.org/10.4316/AECE.2014.01013. ISSN 1582-7445.

VOSS, W. A Comprehensible Guide to Controller Area Network.2nd.ed.Greenfield, Massachusetts, USA: Copperhill Technologies Corporation, 2005-2008.p.152. ISBN 978-0-9765-1160-1.

CANaerospace -the Airborne CAN Interface Standard. Stock Flight Systems[online]. Germany: Stock Flight Systems, 1993 [cit. 2016-01-19]. Available from: http://www.stockflightsystems.com/canaerospace.html.

Flight Simulator SimStar Bravo Presented by Evektor at the Exposition Aero Friedrichshafen. Evektor[online]. Kunovice: Evektor, 1992 [cit. 2016-01-19]. Available from: http://www.evektor.cz/cz/novinky/letecky-simulator-simstar-bravo-prezentovan-evektorem-na-vystave-aero-friedrichshafen#.Vp4BQk_nUik (in Czech).

ZAPLATILEK, K.andDONAR, B. MATLAB for Beginners. 2nd.ed.Prague: BEN –Technical Literature, 2009. p. 152. ISBN 80-7300-175-6 (in Czech).

ZAPLATILEK, K.andDONAR, B. MATLAB Creation of User Applications. 1st. ed. Prague: BEN –Technical Literature, 2008. p. 216. ISBN 978-80-7300-133-9 (in Czech).

JANU, P. A System ofData Acquisition and Processing from AircraftOnboard Systems. Brno, 2011. Dissertation. University of Defence. Supervisor prof. Ing. Rudolf Jalovecky, CSc.

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Published

29-06-2016

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Section

Technical Information

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How to Cite

Janu, P. (2016). Application for Communication Algorithm Design via CAN with CANaerospace Protocol. Advances in Military Technology, 11(1), 117-125. https://aimt.cz/index.php/aimt/article/view/1107

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