Mathematical models of object monitoring and diagnosing for aircraft onboard electrical systems to determine their technical conditions
- Authors: Dubbessa M.K.1
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Affiliations:
- Samara State Aerospace University named after Academician S.P. Korolyov
- Issue: Vol 25, No 1 (2023)
- Pages: 36-42
- Section: Articles
- URL: https://journals.eco-vector.com/1990-5378/article/view/624535
- DOI: https://doi.org/10.37313/1990-5378-2023-25-1-36-42
- ID: 624535
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Abstract
The article studies the features and methods used to monitor and diagnose the technical condition of onboard electrical systems by using as an example analytical, tabular and logical models. The advantages and disadvantages of these models are highlighted. Based on the analysis results, applying a complex monitoring and diagnostic system is advisable to establish up to date intellectualization of onboard electrical systems, specifically aircraft electrical power supply systems and formation of a single information space.
Keywords
About the authors
Mulubirhan Kh. Dubbessa
Samara State Aerospace University named after Academician S.P. Korolyov
Author for correspondence.
Email: muluselam@mail.ru
Graduate Student
Rwanda, SamaraReferences
- Bogdanovich, V.I. Teoreticheskie osnovy obespecheniya nadezhnosti letatel'nykh apparatov na stadii ikh proizvodstva [Elektronnyy resurs]: [ucheb. posobie] / V. I. Bogdanovich. – Samara: SGAU, 2007. – 92 s.
- Xia, Jinsong. Modeling and Prediction of the Reliability Analysis of an 18-Pulse Rectifi er Power Supply for Aircraft Based Applications // IEEE access: practical innovations, open solutions. 2020. Volume 8. Pp 47063-47071.
- Ian Moir and Allan Seabridge (2008), Aircraft Systems Mechanical, electrical, and avionics subsystems integration, Third Edition ed, John Wiley & Sons, Ltd.
- R.P.G. Collinson (2011), Introduction to Avionics Systems, Third Edition, Springer Science + Business Media B.V.
- Koptev, A.N. Aviatsionnoe i radioelektronnoe oborudovanie vozdushnykh sudov grazhdanskoy aviatsii [Elektronnyy resurs]: [ucheb. posobie] / A.N. Koptev. – Samara: Izd-vo SGAU, 2011.
- Schefer, Hendrik. Discussion on Electric Power Supply Systems for All Electric Aircraft // IEEE access: practical innovations, open solutions. 2020. Volume 8. Pp 84188-84216.
- Aleksandrovskaya, L.N. Teoreticheskie osnovy ispytaniy i eksperimental'naya otrabotka slozhnykh tekhnicheskikh sistem [tekst] / L.N. Aleksandrovskaya, V.I. Kruglov, A.G. Kuznetsov, V.A. Kuznetsov, A.A. Kutin, A.M. Sholom. – M.: Logos, 2003. – 736 s.
- Vorob'ev, V.G. Nadezhnost' i tekhnicheskaya diagnostika aviatsionnogo oborudovaniya uchebnik / V.G. Vorob'ev. – M.: MGTU GA, 2010. – 448 s.
- Chinyuchin, Yu.M. Osnovy tekhnicheskoy ekspluatatsii i remonta AT. Uchebnoe posobie / Yu.M. Chinyuchin, I.F. Polyakova. – M.: MGTU GA, 2004. – 81 s.
- Inozemtsev, A.A. Gazoturbinnye dvigateli / A.A. Inozemtsev, V.L. Sandratskiy. – OAO «Aviadvigatel'», 2006. – 1204 s.
- Yang, Yuanchao. Power Management Problem for Civil Aircraft under More Electric Environment // International journal of aerospace engineering. 2020. Volume 2. Rr. 28-34.
- Aygun, Hakan. Exergo-economic cost analysis for a long-range transport aircraft propulsion system at non-linear power loads // Energy: the international journal. 2020. Volume 204. Rr. 13-28.