Abstract
As a result of automated workplace design of a locomotive crew, the architecture of the developed software was formed. The following actions were performed: a precedent diagram was built, a class diagram was built, the main classes of the automated work station (WS) of the locomotive crew were described, a method for developing a user interface was chosen, and a technology for developing a graphical interface was described.
REFERENCES
Rumbaugh, J., Jacobson, I., and Booch, G., The Unified Modeling Language Reference Manual, Reading, Mass.: Addison-Wesley, 1999.
Zhukov, V.V., Tekhnologii programmirovaniya. Uchebno-metodicheskoe posobie dlya kursovoi raboty (Programming Technologies: Textbook for Course Work), Rostov-on-Don: Rostovsk. Gos. Univ. Putei Soobshch., 2017.
Orlov, S.K., Tekhnologii razrabotki programmnogo obespecheniya. Uchebnik (Technologies for Developing Software: Textbook), St. Petersburg: Piter, 2002.
Tetcha, A., C# v promyshlennoi razrabotke (C# in Industrial Development), St. Petersburg: Piter, 2015.
Yakin, D.K.NET osnovy dlya studentov (Fundamentals of. NET for Students), Moscow: Simvol-Plyus, 2012.
.NET Framework. https://docs.microsoft.com/ru-ru/dotnet/desktop/winforms. Cited May 29, 2021.
Antonova, D.A., Ospennikova, E.V., and Spirin, E.V., Digital transformation of educatio systems: Design of resources for modern digital educational environment as one of its main directions, Vestn. Permsk. Gos. Gumanitarno-Pedagogicheskogo Univ. Ser.: Inf. Komp’yuternye Tekhnol. Obrazovanii, 2018, no. 14, pp. 5–37.
Alieva, E.F., Rezapina, G.V., Alekseeva, A.S., Vandanova, E.L., and Kartashova, E.V., Implementation of programs for professional retraining of heads of educational organizations, Obrazovatel’naya Politika, 2020, no. 1, pp. 52–59. https://doi.org/10.22394/2078-838X-2020-1-52-59
Boronenko, T.A., Kaysina, A.V., and Fedotova, V.S., The development of digital literacy of schoolchildren in conditions of creating a digital educational environment, Perspektivy Nauki Obraz., 2019, vol. 38, no. 2, pp. 167–193. https://doi.org/10.32744/pse.2019.2.14
Butsyk, S.V., Digital generation in the educational system of the Russian region: Problems and solutions, Otkrytoe Obraz., 2019, no. 1, pp. 27–33. https://doi.org/10.21686/1818-4243-2019-1-27-33
Gaible, E., Tsifrovaya transformatsiya shkol’nogo obrazovaniya. Mezhdunarodnyi opyt, trendy, global’nye rekomendatsii (Digital Transformation for School-Age Children Education), Moscow: Vysshaya Shkola Ekonomiki, 2019.
Bilenko, P.N., Blinov, V.I., Dulinov, M.V., Esenina, E.Yu., Kondakov, A.M., and Sergeev, I.S., Didakticheskaya kontseptsiya tsifrovogo professional’nogo obrazovaniya i obucheniya (Didactic Concept of Digital Professional Education and Teaching), Blinov, V.I., Ed., Moscow: Pero, 2019.
Manikovskaya, M.A., Digitalization of education: Challenges to traditional norms and moral principles, Vlast’ Upr. Vostoke Ross., 2019, no. 2, pp. 100–106. https://doi.org/10.22394/1818-4049-2019-87-2-100-106
Morozov, A. and Samborskaya, L., The professionalism of the teacher as the most important resource and determinants of quality of pedagogical activity in the conditions of the digital educational environment, Kazanskii Pedagogicheskii Zh., 2018, no. 6, pp. 43–48.
Mukhin, O.I., Formation of a talent in the digitalization epoch: Model of teaching bright and talented students, Vestn. Permsk. Gos. Gumanitarno-Pedagogicheskogo Univ. Ser.: Inf. Komp’yuternye Tekhnol. Obrazovanii, 2017, no. 13, pp. 19–33.
Uvarov, A.Yu., Van, S., Kan, T., et al., Problems and prospects of digital transformation of education in Russia and China, II Rossiisko-kitaiskaya konferentsiya issledovatelei obrazovaniya Tsifrovaya transformatsiya obrazovaniya i iskusstvennyi intellekt (2nd Russian-Chinese Conf. of Researchers of Education Digital Transformation of Education and Artificial Intelligence), Moscow, 2019, Moscow: Vysshaya Shkola Ekonomiki, 2019, pp. 26–27.
Borodin, A.V. and Borodina, A.V., Sredstva razrabotki graficheskikh interfeisov pol’zovatelya. Uchebnoe posobie (Means for Development of Graphical User Interfaces: Textbook), Petrozavodsk: Izd-vo Petrozavodsk. Gos. Univ., 2012.
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Translated by V. Selikhanovich
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Lyashchenko, Z.V., Ignatieva, O.V., Lyashchenko, A.M. et al. Mechanism for Automating the Workstation of a Rolling Stock Driver. J. Mach. Manuf. Reliab. 52 (Suppl 1), S62–S67 (2023). https://doi.org/10.1134/S1052618823090066
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DOI: https://doi.org/10.1134/S1052618823090066