GRNTI 20.53 Технические средства обеспечения информационных процессов
BBK 302 Проектирование
An overview of works devoted to the problems of design and numerical modeling of the power supply system of aircraft − aircraft PSS in the Matlab / Simulink package, carried out by Russian and foreign researchers, is given.
aircraft power supply systems, modeling the operation of aircraft power supply systems in the Matlab / Simulink package
1. Herman-Galkin S. G. Computer modeling of semiconductor systems in MATLAB 6.0: Textbook. − SPb: KORONA print, 2001.− 2001. − 320 p (in Russian).
2. German − Galkin S.G. MATLAB & Simulink. MATLAB & Simulink. Designing mechatronic systems on a PC. - SPb.: KORONA−Vek, − 2008. − 368 p (in Russian).
3. Chernykh I.V. Simulation of electrical devices in MATLAB SymPowerSystems and Simulink. − Moscow: DMK Press, 2012. − 288 p (in Russian).
4. Garganeyev A.S., Kharitonov S.A. Promising power supply systems with fully electrified equipment // Reports of TUSUR. - 2009. − No. 2 (20). − p. 185 - 192 (in Russian).
5. Bocharov V.V., Postnikov V.A., Reznikov S.B., Kharchenko A.I. Energyeconomical combined system with high power quality for the concept of "fully electrified aircraft" // Electronic the journal «Proceedings of the MAI». − 2012. − No 58. - 19 p (in Russian).
6. Khalyutin S.P. Electric plane: past, present, future // Aviapanorama. − 2016. − No 6. - pp. 42 - 51 (in Russian).
7. Khalyutin S.P., Davidov O.A., Zhmurov B.V. Electric and Hybrid Aircraft: Prospects for Creation // Electricity. − 2017. − No 9. - pp. 4 −16 (in Russian).
8. Volokitina Ye.V. Research and development of a high-speed valve electric drive for controls of new aircraft. Diss. Cand. tech. Sciences / Chuvash. state un-t. − Cheboksary, 2006. - 197 p (in Russian).
9. Vlasov A.I. Magnetoelectric starter − generator in the power supply system of new generation aircraft. Diss. Cand. tech. Sciences / Chuvash. state un-t. − Cheboksary, 2010. − 260 p (in Russian).
10. Kuz'michev R.V. Generator in the power supply system of a promising aircraft with an increased level of electrification. Diss. Cand. tech. Sciences / Moscow Aviation Institute - Moscow, 2012.− 193 p (in Russian).
11. Mashinskiy V.V. Backup system for generating electrical energy for aircraft. Diss. Cand. tech. Sciences / Novosib. state tech. university. − Novosibirsk, 2014. − 134 p (in Russian).
12. Khalyutin S.P., Tyulyayev M.L., Zhmurov B.V., Starostin I.Ye. Simulation of complex electric power systems of aircraft / Military Air Academy named after prof. N.E. Zhukovsky and Yu.A. Gagarin. Moscow - 2010. − 188 p (in Russian).
13. Demchenko A.G., Artomenko YU.P. Simulation of parallel operation of the on-board AC power supply system in the Matlab package // Scientific Bulletin of MSTU GA. − 2012. − No 185. - pp. 55 −60 (in Russian).
14. Artemenko YU.P., Sharapov S.S. Application of Matlab in modeling an on-board AC power supply system // Bulletin of MSTU GA. - 2012. - No 185. - pp. 77 - 84 (in Russian).
15. Artemenko YU.P., Demchenko S.S. Improving the model of the on-board AC power supply system // Scientific Bulletin of MSTU GA. − 2015 - No 213. - pp. 34 - 42 (in Russian).
16. Zhmurov B.V., Matyushina A.V., Sokolov P.A. Modeling the operating modes of power supply centers for electric drives of a fully electrified aircraft // Bulletin of MSTU GA. − 2012. - No 185. - pp. 99 - 103 (in Russian).
17. Bocharov A.S., Gubanov K.A., Yevdokimov YA.A. Simulation model of the electric power complex of the Il−76 aircraft in the Simulink simulation environment / Coll. scientific. Art. based on the materials of the IV All-Russian Scientific − practical conf. "Academic Zhukovsky Readings" (November 23-24, 2016), Voronezh: VUNC VVS "VVA", 2017. − pp. 32 - 39 (in Russian).
18. Abbyasov I.V., Bocharov A.S., Sharov I.V. A simulation model of an aircraft DC power supply system with the ability to study in normal and emergency modes of operation in the Simulink simulation environment / Actual problems and perspective directions of development of aviation equipment complexes / Coll. scientific. Art. based on the materials of the V All-Russian Scientific − practical conf. "Academic Zhukovsky Readings" (February 15−16, 2018): − Voronezh: VUNC VVS "VVA", 2018. − pp. 3 - 7 (in Russian).
19. Bocharov A.S., Gubanov K.A., Shipilov A.A. Automated workstation for studying and researching the power supply system of the Su−27 fighter / Actual problems and perspective directions of development of aviation equipment complexes / Coll. scientific. Art. based on the materials of the V All-Russian Scientific − practical conf. "Academic Zhukovsky Readings" (February 15−16, 2018): − Voronezh: VUNC VVS "VVA", 2017. − P. 13 - 18 (in Russian).
20. Al'chin YU.YU. Development of a simulation model of a power supply system for a heavy aircraft. Master Thesis, NTPU, Tomsk, 2018. − 103 p (in Russian).
21. Smagin D.I., Starostin K.I., Savel'yev R.S., Satin A.A, Pritulkin T.D., Methods of creating a dynamic mathematical model of an AC power supply system (PSS) of a promising long-haul passenger aircraft in the SimInTech software package // Comp. nanotechnol. − 2019. − No. 2. − pp. 57 - 62 (in Russian).
22. Korolev Ye.V., Liskovskaya Ye.V., Pavlov D.A. Calculation and modeling of a starter generator aircraft gas turbine engine // International Conference on Soft Computing, − 2020. − V.1. − pp. 296 −298 (in Russian).
23. Karimov V.G. Combined systems for regulating the frequency of the output voltage with elements of artificial intelligence for contactless synchronous generators. diss. Cand. tech. Science / Ufa State Aviation Technical University. − Ufa, 2012.− 146 p (in Russian).
24. Zhmurov B.V. The process of designing power supply systems for aircraft as an object of optimization // Scientific Bulletin of MSTU GA. − 2018. − No. 01. - pp. 88 - 103 (in Russian).
25. Montealegre Lobo L., Dufour Ch., Mahseredjian J. Real-time Simulation of More-Electric Aircraft Power Systems // Paper presented at the EPE'13 ECCE Europe conference, September 3 − 5, 2013, Lille, France. − 11 p.
26. Nuzzo P., Finn J., Mozumdar M., Sangiovanni-Vincentelli A. Platform-Based Design Methodology and Modeling for Aircraft Electric Power Systems // Paper presented at the Green Energy and System Conference, 25 Nov. 2013 Long−Beach, Ca., USA. − 7 p.
