UDC 330.342
The article is devoted to the analysis of the processes of digital transformation of engineering education in the context of modern challenges of 2025-2026. The key technological drivers of change are considered: product lifecycle management systems (PLM), artificial intelligence, digital twins, immersive technologies. The systemic contradictions between the traditional pedagogical paradigm and the requirements of the digital economy are revealed. The article substantiates the need to move from the fragmented use of digital tools to the formation of a holistic digital educational ecosystem that integrates fundamental training, practice-oriented learning and end-to-end digital competencies. Based on the analysis of the practices implemented in Russian and foreign universities, the directions of improving engineering training in the context of a new model of higher education are proposed.
digital transformation, engineering education, PLM systems, artificial intelligence, digital twins, pedagogical design, digital competencies
1. Borovkov A.I., Rozhdestvenskiy O.I., Sachava D.S. i dr. Populyarizaciya instrumentov cifrovogo inzhiniringa v deyatel'nosti sovremennogo inzhenernogo universiteta v ramkah koncepcii dostizheniya tehnologicheskogo liderstva Rossii. — SPb.: POLITEH-PRESS, 2025. — DOIhttps://doi.org/10.18720/SPBPU/2/i26-12.
2. Shangina, E.I. Geometricheskoe modelirovanie kak instrument povysheniya kachestva geometro-graficheskoy podgotovki studentov. Mezhdunarodnaya nauchno-prakticheskaya konferenciya «Ural'skaya gornaya shkola – regionam»// Ural. gos. gornyy un-t. – Ekaterinburg: Izd-vo UGGU, 2025. – C. 324-329.
3. MAI zapustil programmu dopolnitel'nogo obucheniya prepodavateley dlya sovershenstvovaniya podgotovki inzhenerov // AEX.RU. — 11.02.2026. — URL: https://www.aex.ru/news/2026/2/11/292467/
4. Kulmamatov R.J. Effectiveness of training future engineering students using digitalized educational technologies // Zenodo. — 2026. — DOIhttps://doi.org/10.5281/zenodo.18708406.
5. Senatory predlozhili vernut' stroykompaniyam vozmozhnost' soderzhat' svoi tehnikumy // Informacionnyy portal ASDG. — 11.03.2026. — URL: https://portal1.asdg.ru/news/391286/
6. Formiruem novye podhody k obrazovaniyu inzhenera // Gosudarstvennyy universitet "Dubna". — 2026. — URL: https://news.uni-dubna.ru/posts/1878
7. Kalina A.A., Timoschenko T.N., Leonik Yu.S. Cifrovaya transformaciya inzhenernoy podgotovki // Sbornik materialov 23-y Mezhdunarodnoy nauchno-tehnicheskoy konferencii «Nauka – obrazovaniyu, proizvodstvu, ekonomike». — Minsk: BNTU, 2026. EDN: https://elibrary.ru/STVIJZ
8. Cifrovye dvoyniki, II, mashinostroenie: na kogo uchit'sya v 2026 godu // Nacional'naya Associaciya neftegazovogo servisa. — 04.01.2026. — URL: https://nangs.org/news/education/tsifrovye-dvojniki-ii-mashinostroenie-na-kogo-uchitsya-v-2026-godu
9. Bolsunovskaya L.M., Ganina O.A. Cifrovaya transformaciya sovremennogo obrazovatel'nogo prostranstva: plyusy i minusy // Vektory blagopoluchiya: ekonomika i socium. — 2025. — T. 53, № 3. — S. 156-173. — DOIhttps://doi.org/10.18799/26584956/2025/3/2017. EDN: https://elibrary.ru/JUOWML
