| Монографии: |
- Управление мехатронными вибрационными установками / Б. Р. Андриевский, И. И. Блехман, Ю. А. Борцов, С. В. Гаврилов, В. А. Коноплёв, Б. П. Лавров, Н. Д. Поляхов, О. П. Томчина, А. Л. Фрадков, В. М. Шестаков; под ред. И. И. Блехмана и А. Л. Фрадкова. – Санкт-Петербург: Наука, 2001. – 278 с.
- Епишкин, А. Е. Динамика автоматизированных электромеханических систем многороторных вибрационных установок / А. Е. Епишкин, В. М. Шестаков, О. П. Томчина. – Санкт-Петербург: Изд-во Политехнического университета, 2014. – 108 с.
- L. Fradkov, D. A. Tomchin, O. P. Tomchina. Controlled Passage Through Resonance for Two-Rotor Vibration Unit Mechanics and Model-Based Control of Advanced Engineering Systems. In: Belyaev Alexander K., Irschik Hans, Krommer Michael (Eds.). Springer-Verlag Wien, 2014, pp 95–102.
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| Статьи: |
- Fradkov A. L., Tomchina O. P., Andrievsky B. R., Boikov V. I. Control of Phase Shift in Two-Rotor Vibration Units IEEE Transactions on Control Systems Technology, Vol. 29, No. 3, May 2021, pp. 1316–1322.
- Tomchina O. P., Control of oscillations in two-rotor cyberphysical vibration units with time-varying observer Cybernetics and Physics, Vol. 9, No. 4. 2020, pp. 206–213.
- Адаптивное управление нестационарными нелинейными объектами на основе алгоритмов скоростного градиента / О. Р. Томчина, Д. Н. Поляхов, О. И. Токарева, А. Л. Фрадков // Информационно-управляющие системы. – 2019. – № 3 (100). – С. 37–44.
- Tomchina O. P., Control of vibrational field in a vibration unit: influence of drive dynamics Cybernetics and Physics, 8 (4), 2019, pp. 298–306.
- Tomchina O. P., Andrievsky B. R., Fradkov A. L., Boikov V. I. Angular velocity and phase shift control of mechatronic vibrational setup IFAC-PapersOnLine, 2019 (Австрия), 52 (15), pp. 436–441.
- Furtat I., Tomchina O. P., Tergoev N., Kazi F., Singh N.. Speed-gradient-based control of power network: case study Сybernetics and physics, vol. 5, no. 3, 2016, pp. 85–90.
- Fradkov A. L., Tomchina O. P., Tomchin D. A., Gorlatov D. V. Time-varying observer of the supporting body velocity for vibration units // IFAC 6th IFAC Workshop on Periodic Control Systems PSYCO 2016 (Австрия) IFAC-PapersOnLine 49(14): pp. 18–23.
- Fradkov A. L., Tomchina O. P., Tomchin D. A., Gorlatov D. V. Control of oscillations in vibration machines: Start up and passage through resonance Chaos, «American Institute of Physics» (США), 2016, 26(11): 116310.
- Blekhman I., Fradkov A. L., Tomchina O. P., Bogdanov D. E. Self-Synchronization and Controlled Synchronization: General Definition and Example Design. Mathematics and Computers in Simulation, 2002, V. 58, Issue 4–6, pp. 367–384.
- Fradkov A. L., Tomchina O. P., Tomchin D. A. Controlled passage through resonance in mechanical systems Journal of Sound and Vibration, V. 330, Is. 6, 2011, pp. 1065–1073.
- Fradkov A. L, Tomchina O. P., Tomchin D. A. Controlled passage through resonance in mechanical systems Journal of Sound and Vibration, V. 330, Is. 6, 2011, pp. 1065–1073.
- Tomchin D. A., Tomchina O. P., Fradkov A. L. (2015) Controlled passage through resonance for flexible vibration units. Mathematical Problems in Engineering 2015:1–8. DOI: dx.doi.org/10.1155/2015/83910
- Tomchina O. P., Nechaev K. V. (2015) Controlling passage through resonances in vibratory actuators. In: European Control Conference, ECC 1999 – Conference Proceedings, Karlsruhe, 31 August – 3 September 1999:3446–3451.
- Tomchina O. Control of vibrational field in a cyber-physical vibration unit. Cibernetics and Physics, 2018, Т. 7, № 3, pp. 144–151.
- Blekhman I., Fradkov A. L., Tomchina O. P., Bogdanov D. E. Self-Synchronization and Controlled Synchronization: General Definition and Example Design. Mathematics and Computers in Simulation, 2002, V. 58, Issue 4–6, pp. 367–384.
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