Поиск сотрудников физического факультета

Кафедра физико-математических методов управления




Фамилия: Митришкин (Mitrishkin)
Имя: Юрий (Yuri)
Отчество: Владимирович (Vladimirovich)
Ученая степень: д.т.н. (Doctor of Engineering Sciences)
Должность: профессор (Professor)
Email: mitrishkin.yv19@physics.msu.ru
Страница в интернете: http://physcontrol.phys.msu.ru/index.php/ru/staff/mitrishkin-yurij-vladimirovich
Научные интересы: Теория управления и ее применение к управлению формой плазмы в токамаках (identification, methods and systems of control of dynamical plants, plasma control in tokamaks)
Научная биография: Professor of Faculty of Physics of M.V. Lomonosov Moscow State University (LMSU), Chief Researcher of V.A. Trapeznikov Institute of Control Sciences, Russian Academy of Sciences (ICS RAS). Worked in Culham Centre for Fusion Energy (UK), the International Thermonuclear Experimental Reactor - ITER Central Joint Team (Japan), The University of Tokyo (Japan). Member of The Institute of Electrical and Electronics Engineers (IEEE) Control Systems Society (CSS) and The IEEE CSS Technical Committee on Power Generation (USA). Participant of European Commission NESTER grant (2008-2009). Participant of Presidium exhibition of RAS (2010). Expert of the European Commission on grant reviews (Belgium, 2012). Member of the Organizing Committee of The IFAC Conference on Manufacturing Modelling, Management and Control (2013, RF), co-chair of the section of Identification for Control, IFAC WC, 2020 (Germany). Scientific Supervisor of grants of Russian Science Foundation and Russian Foundation for Basic Research, author of more than 200 scientific publications, including 21 patents. Scientific Supervisor of the Youth Scientific School “Methods and systems of plasma control in tokamaks” at ICS RAS. Y.V. Mitrishkin is a laureate of a number of research paper contests at ICS RAS and was awarded first prize for his research paper in the 2018 LMSU Development Program contest. Ю.В. Митришкин работает в Институте проблем управления с 1972 г. Путь в науку для Ю.В. Митришкина начался с аспирантуры ИПУ РАН (научный руководитель д.т.н., профессор Л.Н. Фицнер), а затем состоялся рост в научной карьере с защитой кандидатской диссертации в ИПУ РАН, докторской диссертации в РНЦ «Курчатовский институт» и повышением в должности от младшего научного сотрудника до главного научного сотрудника. Образование в области технических (КПтИ им. В.В. Куйбышева, 1970 г.) и математических (МГУ им. М.В. Ломоносова, 1982 г.) наук позволило Ю.В. Митришкину развить серьезное научное направление, связанное с разработкой методов и систем управления высокотемпературной плазмой в термоядерных установках как сложного многосвязного динамического объекта с распределенными параметрами и неопределенностями. Опубликовано более сотни работ в этом направлении, а также получен ряд авторских свидетельств. Результаты проводимых работ представлялись на выставке научных достижений Российской академии наук в Президиуме РАН в 2010 г. Ю.В. Митришкин имеет многолетний опыт работы в зарубежных организациях по обозначенной тематике, это – работа в Калэмской лаборатории в Англии, в Центральной команде международного проекта термоядерного реактора ITER на территории Института атомной энергии Японии, профессором в Токийском университете. Работа совместно с зарубежными специалистами дала Ю.В. Митришкину уникальный опыт, позволяющий получать результаты на высоком научном уровне и следить за мировыми достижениями и тенденциями в области управления плазмой в токамаках. Результаты научной работы коллектива, возглавляемого Ю.В. Митришкиным, регулярно представляются на международных конференциях. Наиболее значимыми из них за последнее время являются: международный конгресс IFAC WC 2011 (г. Милан, Италия, 2 доклада), симпозиум IFAC INCOM’09 (г. Москва, РФ, организована приглашенная секция), ежегодные международные конференции под эгидой IEEE, т.е. CDC 2009 (г. Шанхай, Китай), CDC 2011 (г. Орландо, США), MSC 2011 (г. Денвер, США), CDC 2012 (о. Мауи, Гавайи, США), а также конференция IFAC MIM 2013 (г. Санкт Петербург, РФ, организована секция с приглашенными докладами). Ю.В. Митришкин имеет связи с Еврокомиссией: участвовал в работах по гранту NESTER Еврокомиссии (2008-2009 гг.), в семинаре по оценке работ, финансируемых Еврокомиссией по 7-й Рамочной Программе (2009 г., г. Брюссель, Бельгия), в рецензировании проектов Еврокомиссии как международный эксперт в области теории и практики систем управления (2012 г., г. Брюссель, Бельгия). Ю.В. Митришкин состоит в международном сообществе IEEE Control Systems Society (CSS) г., является членом международного комитета по генерации энергии (IEEE CSS Technical Committee on Power Generation). Ю.В. Митришкин уделяет большое внимание подготовке молодых специалистов в области теории и практики управления, при этом наиболее заинтересованные молодые люди работают под его руководством по проблеме управляемого термоядерного синтеза. Ю.В. Митришкин преподает теорию систем управления на должности профессора в МГУ им. М.В. Ломоносова на кафедре «Физико-математические методы управления» Физического факультета, а также на кафедре «Техническая кибернетика» МФТИ факультета аэрофизики и космических исследований, где участвует в работе ГАК по защите ученых степеней бакалавров и магистров. В ИПУ РАН им создана Молодежная научная школа «Методы и системы управления плазмой в токамаках». На данный момент Ю.В. Митришкин занимается комплексной разработкой и моделированием алгоритмов и систем реконструкции и управления формой плазмы в токамаках при поддержке РФФИ.
Основные публикации:
  1. Yu. V. Mitrishkin, “On the control algorithm of extremal dynamic plants”, Avtomat. i Telemekh., 1976, No 1, 117–126.
  2. Yu. V. Mitrishkin, “Automatic feedback optimization in a nonstationary unstable plant”, Autom. Remote Control, 38:5 (1977), 668–676.
  3. Yu. V. Mitrishkin, “Optimizing the solar energy conversion mode”, Avtomat. i Telemekh., 1978, No 7, 53–60.
  4. Yu. V. Mitrishkin, “Extremal control of plants with a threshold performance criterion”, Autom. Remote Control, 44:11 (1983), 1416–1427.
  5. Yu. V. Mitrishkin, I. S. Savkina, “On a model of plasma equilibrium in a tokamak”, Autom. Remote Control, 45:3 (1984), 332–340.
  6. Mitrishkin Y.V. Control of Dynamical Plants Using Automatic Tuning. - Moscow: Nauka, 1985. - 158 p. Monograph. (in Russian).
  7. Yu. V. Gribov, V. A. Chuyanov, Yu. V. Mitrishkin, “Automatic estimation of equation coefficients for tokamak plasma disturbance under the operation of stabilization system”, Zhurnal Tekhnicheskoi Fiziki57:9 (1987),  1751–1757 (in Russian).
  8. Yu. V. Mitrishkin, “Minimizing the autooscillation amplitude in a switching control system with a stable linear dynamic part”, Autom. Remote Control, 50:9 (1989), 1222–1231
  9. Mitrishkin Y.V., Kuznetsov E. A. Estimation of Parameters of Stabilized Plasma // Plasma Devices and Operations. - 1994. Vol. 2. P. 277-286.
  10. Mitrishkin Y.V. Relay Control of Unstable Vertical Plasma Position in Tokamak // Plasma Devices and Operations. - 1995. - Vol. 4. - P.111-140.
  11. Ambrosino G., Ariola M., Mitrishkin Y., Portone A.  Plasma Current and Shape Control in Tokamaks Using H? and µ-Synthesis // Proceedings of the 36 IEEE Conference on Decision and Control, San Diego, California. - December, 1997. - P.3697-3702.
  12. Belyakov V., Kavin A., Kharitonov V., Mitrishkin Y., Misenov B., Ovsyannikov A., Ovsyznnikov D., Rumyantsev E., Veremei E., Zhabko A.  Linear Quadratic Gaussian Controller Design for Plasma Current, Position and Shape Control System in ITER // Fusion Engineering and Design. - 1999. - Vol. 45. - P.55-64.
  13. Mitrishkin Y.V. and Kimura H. Plasma Vertical Speed Robust Control In Fusion Energy Advanced Tokamak // Proceedings of the 40th IEEE Conference on Decision and Control, Florida, USA. - December 2001 - P. 1292-1297.
  14. Mitrishkin, Y.V., Kurachi K., Kimura H. Plasma Multivariable Robust Control System Design and Simulation for a Thermonuclear Tokamak-Reactor // International Journal of Control, Vol. 76, No. 13, pp. 1358-1374, 2003.
  15. Mitrishkin, Y.V. Comprehensive Design and Implementation of Plasma Adaptive Self-Oscillations and Robust Control Systems in Thermonuclear Installations // Proc. 8th World Multi-Conference on Systemics, Cybernetics and Informatics, SCI 2004, Orlando, FL, USA, Vol. XV, pp. 247-252, 2004.
  16. Mitrishkin Y.V., Dokuka V.N., Khayrutdinov R.R., Kadurin A.V. Plasma magnetic robust control in tokamak-reactor // Proc. 45th IEEE Conf. on Decision and Control, San Diego, CA, USA, Dec 13-15, 2006, pp. 2207-2212, ISBN: 1-4244-0171-2.
  17. V. N. Dokuka, A. V. Kadurin, Yu. V. Mitrishkin, R. R. Khayrutdinov. Synthesis and modeling of the H -system of magnetic control of the plasma in the tokamak-reactor // Automation and Remote Control, 2007, Volume 68, Issue 8, pp. 1410–1428.
  18. Yu. V. Mitrishkin, A. Ya. Korostelev, A system with predictive model for plasma shape and current control in a tokamak, Probl. Upr., 5 (2008), 19–25 (in Russian).
  19. Mitrishkin Y.V., Korostelev A.Y., Sushin I.S., Khayrutdinov R.R., Dokuka V.N. Plasma Shape and Current Tracking Control System for Tokamak // Proceedings of The 13th IFAC Symposium on Information Control Problems in Manufacturing, Moscow, June 3-5, 2009, V.A. Trapeznikov Institute of Control Sciences of the Russian Academy of Sciences, 2009, Fr-C7.1, pp. 2133-2138.
  20. Mitrishkin Y.V., Haber R.E. Intelligent Hierarchical Control System for Complex Processes // Proceedings of The 6th International Conference on Informatics in Control, Automation and Robotics – ICINCO 2009: Intelligent Control Systems and Optimization, Italy, Milan, July 2009, pp. 333-336.
  21. Mitrishkin Y.V., Kartsev N.M. Stabilization of closed-loop control system with uncertainty in non-stationary plant parameters. Bauman University Bulletin. Series: Instrumentation Engineering, No. 4, 2009, pp. 69-83. (in Russian).
  22. Mitrishkin Y. V., Korostelev A. Y., Dokuka V. N., Khayrutdinov R. R. Design and Modeling of ITER Plasma Magnetic Control System in Plasma Current Ramp-Up Phase on DINA Code // Proceedings of the 48th IEEE Conference on Decision and Control, Shanghai, China, December 16-18, 2009, pp. 1354-1359.
  23. Yu.V. Mitrishkin, A.Ya. Korostelev, V.N. Dokuka, and R.R. Khayrutdinov. Synthesis and Simulation of a Two_Level Magnetic Control System for Tokamak_Reactor Plasma. Plasma Physics Reports, 2011, Vol. 37, No. 4, pp. 279–320. Pleiades Publishing, Ltd., 2011.
  24. Mitrishkin Y.V., Kadurin A.V., Korostelev A.Y. Tokamak Plasma Shape and Current  Controller Design in Multivariable Cascade System // Proc. 18th IFAC World Congress, Milan, Italy. 2011. TuA16.3. P. 3722-3727.
  25. Mitrishkin Y.V., Ivanov V.A. Combined Nonlinear Tokamak Plasma Current Profile Control System Design with Input Constraints // Proc. IFAC World Congress, Milan, Italy, 2011. TuA16.4. P. 3728-3733.
  26. Mitrishkin Y.V., Kartsev N.M. Hierarchical Plasma Shape, Position, and Current Control System for ITER // Proc. the 50th IEEE Conference on Decision and Control and European Control Conference, Orlando, FL, USA. 12-15 December, 2011. TuA13.2. P. 2620-2625.
  27. Kadurin A. V. & Mitrishkin Y. V. (2011). Multidimensional system of cascaded control of plasma form and current in tokamak with channel decoupling and H¥-controller, Automation and remote control, 72(10), 2053–2070. https://doi.org/10.1134/S0005117911100067.
  28. Mitrishkin Yu. V., Zenckov S. M., Kartsev N. M., Efremov A. A., Dokuka V.N., Khayrutdinov R. R. “Linear and impulse control systems for plasma unstable vertical position in elongated tokamak,” in Proc. The 51st IEEE Conference on Decision and Control, Maui, Hawaii, USA, December 10-13, 2012, pp. 1697-1702. DOI: 10.1109/CDC.2012.6426971.
  29. Mitrishkin Y.V., Efremov A.A., Zenkov S.M. Experimental Test Bed for Real Time Simulations of Tokamak Plasma Control Systems. Journal of Control Engineering and Technology. Vol. 3, Iss. 3, July 2013, pp. 121-130, American V-King Scientific Publish,  http://www.ijcet.org/.
  30. S. M. Zenkov, Y. V. Mitrishkin, E. K. Fokina, “Plasma position, shape and current control systems in T-15 tokamak”, Probl. Upr., 4 (2013), 2–10 (in Russian).
  31. Mitrishkin Y.V., Kartsev N.M., Zenkov S.M. Plasma vertical position, shape, and current control in T-15 tokamak. Proceedings of the IFAC Conference on Manufacturing Modelling, Management and Control", Saint Petersburg, Russia, June 19-21, 2013, pp. 1820-1825.
  32. Mitrishkin Y.V., Kartsev N.V., Zenkov S.M. Stabilization of unstable vertical position of plasma in T-15 tokamak. I. Automation and Remote Control, 2014, Volume 75, Issue 2, pp. 281–293.
  33. Mitrishkin Y.V., Kartsev N.V., Zenkov S.M. Stabilization of unstable vertical position of plasma in T-15 tokamak. II. Automation and Remote Control. 2014, Volume 75, Issue 9, pp 1565–1576.
  34. Y.V. Mitrishkin, P.S. Korenev, N.V. Kartsev, M.I. Patrov.  Plasma shape control with a linear model for Globus-M tokamak. 41st European Physical Society (EPS) Conference on Plasma Physics, Berlin, Germany, June 23-27, 2014. P4.054.
  35. A. A. Prokhorov, Yu. V. Mitrishkin, M. I. Patrov, and V. K. Gusev. The Cascade Multivariable Control System of Poloidal Magnetic Fluxes in a Tokamak. Automation and Remote Control, 2016, Vol. 77, No. 2, pp. 356–367. © Pleiades Publishing, Ltd., 2016. https://doi.org/10.1134/S0005117916020119.
  36. Korenev P. S., Mitrishkin Y. V., Patrov M. I. Reconstruction of Equilibrium Distribution of Tokamak Plasma Parameters by External Magnetic Measurements and Construction of Linear Plasma Models. Mechatronics, Automation, Control, Vol. 17, No 4, 2016, pp. 254-265. DOI: 10.17587/mau.17.254-266. (in Russian).
  37. Y.V. Mitrishkin, E.A. Pavlova, E.A. Kuznetsov, K.I. Gaydamaka, “Continuous, saturation, and discontinuous tokamak plasma vertical position control systems”, Fusion Engineering and Design, Elsevier, vol. 108, 2016, pp. 35-47. DOI: 10.1016/j.fusengdes.2016.04.026.
  38. Y.V. Mitrishkin. Plasma control in experimental thermonuclear installations: Adaptive self-oscillations and robust control systems. Moscow, URSS-KRASAND, 2016. Monograph, 400 p. (in Russian). ISBN 978-5-396-00694-2.
  39. N. M. Kartsev, Yu. V. Mitrishkin, M. I. Patrov. Hierarchical robust systems for magnetic plasma control in tokamaks with adaptation. Automation and Remote Control, April 2017, Volume 78, Issue 4, pp. 700–713.https://doi.org/10.1134/S0005117917040117
  40. Y.V. Mitrishkin, P.S. Korenev, A.A. Prohorov, M.I. Patrov. Robust H switching MIMO control for a plasma time-varying parameter model with a variable structure in a tokamak. Proc. IFAC 2017 World Congress, Toulouse, France, pp. 11883-11888, 2017. IFAC PapersOnLine 50-1 (2017) 11385–11390.
  41. Y.V. Mitrishkin, P.S. Korenev, A.A. Prohorov, M.I. Patrov. Tokamak Plasma Magnetic Control System Simulation with Reconstruction Code in Feedback Based on Experimental Data. Proc. 2017 IEEE 56th Annual Conference on Decision and Control, Melbourne, Australia, December 12-15, 2017, pp. 2360-2365.
  42. Dokuka V. N., Korenev P. S., Mitrishkin Yu. V., Pavlova E. A., Patrov M. I., and Khayrutdinov R. R. Study of Globus-M tokamak poloidal system and plasma position control. Physics of Atomic Nuclei, 2017, Vol. 80, No. 7, pp. 1298–1306. © Pleiades Publishing, Ltd., 2017. https://doi.org/10.1134/S1063778817070055.
  43. Yu.V. Mitrishkin, P.S. Korenev, A.A. Prokhorov, N.M. Kartsev, M.I. Patrov. Plasma Control in Tokamaks. Part 1. Controlled thermonuclear fusion problem. Tokamaks. Components of control systems. Advances in Systems Science and Applications. Vol. 18, No 2, 2018, pp. 26-52. DOI: https://doi.org/10.25728/assa.2018.18.2.598.
  44. Y.V. Mitrishkin, Nikolay M. Kartsev, Evgeniya A. Pavlova, Artem A. Prohorov, Pavel S. Korenev, M.I. Patrov. Plasma Control in Tokamaks. Part 2. Magnetic Plasma Control Systems. Advances in Systems Science and Applications. Vol. 18, No 3, 2018, pp. 39-78.
  45. Y.V. Mitrishkin, A.A. Prohorov, P.S. Korenev, M.I. Patrov. Robust control system for plasma current and position in a tokamak with self-oscillating actuators. Proceedings of the IV International Conference “Stability and Oscillations of Nonlinear Control Systems” (Pyatnitskiy's Conference). May 30 – June 1, 2018, ICS RAS, Moscow, Russia. Publisher IEEE (Piscataway, NJ, United States).
  46. Y.V. Mitrishkin, A.A. Prokhorov, P.S. Korenev, M.I. Patrov. Robust plasma position, current, and shape control system simulated on plasma evolution code for the spherical tokamak Globus-M. Proceedings of the 45th European Physical Society Conference on Plasma Physics, Prague, Check Republic, July 2-6, 2018. P4.1079.
  47. Yu. V. Mitrishkin, M. P. Golubtsov. A Hybrid Control System for an Unstable Non-Stationary Plant with a Predictive Model. Automation and Remote Control, 2018, Vol. 79, No. 11, pp. 2005–2017.
  48. Y.V. Mitrishkin. Linear mathematical models of dynamical systems with control. LENAND-URSS, 2019. 464 p. Monograph. (in Russian).
  49. Y.V. Mitrishkin, A.A. Prokhorov, P.S. Korenev and M.I. Patrov. Hierarchical robust switching control method with the equilibrium reconstruction code based on improved Moving Filaments approach in the feedback for tokamak plasma shape. Fusion Engineering and Design, 2019, v. 138, pp. 138-150. https://doi.org/10.1016/j.fusengdes.2018.10.031.
  50. Kuznetsov E.A., Mitrishkin Y.V., Kartsev N.M. Current Inverter as Auto-Oscillation Actuator in Applications for Plasma Position Control Systems in the Globus-M/M2 and T-11M Tokamaks. Fusion Engineering and Design. Vol. 143, 2019, pp. 247-258. https://doi.org/10.1016/j.fusengdes.2019.02.105.
  51. Y.V. Mitrishkin, P.S. Korenev, N.M. Kartsev, E.A. Kuznetsov, A.A. Prohorov, M.I. Patrov. Plasma magnetic cascade multiloop control system design methodology in a tokamak. Control Engineering Practice. Vol. 87, 2019, pp. 97-110. https://doi.org/10.1016/j.conengprac.2019.03.018
  52. Mitrishkin Y.V., Kruzhkov V.I., Patrov M.I. Estimation of controllability region of unstable vertical plasma position and plasma separatrix multivariable reachability area of a spherical tokamak. Proceedings of The 46th European Physical Society Conference on Plasma Physics, Milan, Italy, July 8-12, 2019. P4.1095.
  53. Y.V. Mitrishkin, A.A. Prokhorov, P.S. Korenev, M.I. Patrov. Plasma magnetic time-varying nonlinear robust control system for the Globus-M/M2 tokamak. Control Engineering Practice (A Journal of IFAC, Elsevier), Vol. 100 (July 2020) 104446. https://doi.org/10.1016/j.conengprac.2020.104446.
  54. Yu. Mitrishkin, N. Kartsev, P. Korenev, M. Patrov. Model Predictive Control with Time Varying Parameters for Plasma Shape and Current in a Tokamak. IFAC PapersOnLine, Vol. 53, Issue 2, 2020, Pages 6631-6636, https://doi.org/10.1016/j.ifacol.2020.12.083.
  55. A. Konkov, Yu. Mitrishkin, P. Korenev, M. Patrov. Robust Cascade LMI Design of MIMO Controllers for Plasma Position, Current, and Shape Model with Time-Varying Parameters in a Tokamak. IFAC PapersOnLine, Vol. 53, Issue 2, 2020, Pages 7344-7349. https://doi.org/10.1016/j.ifacol.2020.12.1000.
  56. A. Prokhorov, Yu. Mitrishkin, P. Korenev, M. Patrov. The plasma shape control system in the tokamak with the neural network as a plasma equilibrium reconstruction algorithm. IFAC PapersOnLine, Vol. 53, Issue 2, 2020, Pages 857-862. https://doi.org/10.1016/j.ifacol.2020.12.843.
  57. Mitrishkin Y. V., Kruzhkov V. I. Two-cascade multiloop control system of a plasma shape in a tokamak with decoupling and robust PID-controllers // Proceedings of 2020 15th International Conference on Stability and Oscillations of Nonlinear Control Systems (Pyatnitskiy's Conference) (STAB). — [Piscataway, N.J.], United States, June 2020. doi: 10.1109/STAB49150.2020.9140722.
  58. Mitrishkin Y. V., Ivanova S. L., Synthesis of a robust control system for an unstable plant using QFT// Proceedings of 2020 15th International Conference on Stability and Oscillations of Nonlinear Control Systems (Pyatnitskiy's Conference) (STAB). - [Piscataway, N.J.], United States, June 2020, doi: 10.1109/STAB49150.2020.9140454.
  59. Mitrishkin, Y., Kartsev, N., Konkov, A., & Patrov, M. (2020). Plasma Control in Tokamaks. Part 3.1. Plasma Magnetic Control Systems in ITER. Advances in Systems Science and Applications, Vol 20, No 2, June, pp. 82-97. https://doi.org/10.25728/assa.2020.20.2.892.
  60. Mitrishkin, Y., Kartsev, N., Konkov, A., & Patrov, M. Plasma Control in Tokamaks. Part 3.2. Simulation and realization of plasma control systems in ITER and constructions of DEMO. Advances in Systems Science and Applications. October, 2020, Vol 20, No 3, pp. 136-152. International Institute for General Systems Studies. DOI: 10.25728/assa.2020.20.3.939.
  61. Mitrishkin Y.V., Kartsev N.M., Kuznetsov E.A., Korostelev F.Y. Methods and systems of plasma magnetic control in tokamaks. Moscow, KRASAND, 2020. 525 p. Monograph. (in Russian).
  62. Y.V. Mitrishkin, N.M. Kartsev, A.A. Prokhorov, E.A. Pavlova, P.S. Korenev, A.E. Konkov, V.I. Kruzhkov, S.L. Ivanova. Tokamak plasma models development for plasma magnetic control systems design by first principle equations and identification approach. Proc. 14th International Symposium «Intelligent Systems», INTELS’20, 14-16 December 2020, Moscow, Russia. Procedia computer science, Elsevier BV (Netherlands), Vol 186, 2021, pp. 466-474.
  63. Yuri Mitrishkin, Evgeniia Pavlova, Mikhail Patrov. Design and comparison of plasma H loop shaping and RGA-H double decoupling multivariable cascade magnetic control systems for a spherical tokamak. Advances in Systems Science and Applications. 2021; 01; 22-45.
  64. Y.V. Mitrishkin. Plasma magnetic control systems in D-shaped tokamaks and imitation digital computer platform in real time for controlling plasma current and shape. Advances in Systems Science and Applications. 2021, Vol 21, No 4, pp. 1-15.
  65. Y. V. Mitrishkin, P. S. Korenev, A. E. Konkov, V. I. Kruzhkov, N. E. Ovsyannikov. New identification approach and methods for plasma equilibrium reconstruction in D-shaped tokamaks. Mathematics. 2022, 10, 40. https://doi.org/10.3390/math10010040.
  66. Y.V. Mitrishkin, P.S. Korenev, A.E. Konkov, N.M. Kartsev, I.S. Smirnov. New horizontal and vertical field coils with optimized location for robust decentralized plasma position control in the IGNITOR tokamak. Fusion Engineering and Design. In press. 2022.
  67. A.E. Konkov, Y.V. Mitrishkin. Comparison Study of Power Supplies in Real-Time Robust Control Systems of Vertical Plasma Position in Tokamak. The 11th IFAC Symposium on Control of Power and Energy Systems, Moscow, Russia, June 21-23, 2022. On reviewing.


Читаемые курсы: Линейные системы управления; Методы управления многосвязными динамическими системами