​1. Aleksandrov A., Fradkov A.L., Semenov A. (2020) Delayed and switched control of formations on a line segment: Delays and switches do not matter. IEEE Trans. Automatic Control. Vol. 65, no. 2. P. 794–800. DOI: 10.1109/TAC.2019.2918995 (Scopus, WoS), Q1

2. Aleksandrov A., Semenov A., Fradkov A. (2020) Discrete-time Deployment of Agents on a Line Segment: Delays and switches do not matter. Autom. Remote Control. Vol. 81, no. 4. P. 637–648. DOI: 10.1134/S0005117920040062 (Scopus, WoS)

3. Andrievsky B., Arseniev D., Kuznetsov N., Zaitceva I. (2020) Pilot-Induced Oscillations and Their Prevention. Lecture Notes in Networks and Systems. Vol. 95. P. 108–123. DOI: 10.1007/978-3-030-34983-7_11 (Scopus)

4. Andrievsky B.R., Furtat I.B. (2020) Disturbance Observers: Methods and Applications. I. Methods. Autom. Remote Control. Vol. 81, no. 9. P. 1563–1610. [Андриевский Б. Р., Фуртат И. Б. Наблюдатели возмущений: методы и приложения. Часть 1. Методы. Автоматика и телемеханика. 2020. № 9. С. 3-61] DOI: 10.1134/S0005117920090015 (Scopus, WoS)

5. Andrievsky B.R., Furtat I.B. Disturbance Observers: Methods and Applications. II. Applications. Autom. Remote Control. 2020. Vol. 81. P. 1775–1818. [Андриевский Б. Р., Фуртат И. Б. Наблюдатели возмущений: методы и приложения. Часть 2. Приложения. Автоматика и телемеханика. 2020. № 10. С. 35–91] DOI: 10.1134/S0005117920100021 (Scopus, WoS)

6. Andrievsky B., Kudryashova E., Kuznetsov N., Kuznetsova O. (2020) Aircraft wing rock oscillations suppression by simple adaptive control. Aerospace Science and Technology. Vol. 105. DOI: 10.1016/j.ast.2020.106049 (Scopus, WoS) Q1

7. Andrievsky B., Selivanov A. (2020) Historical Overview of the Passification Method and its Applications to Nonlinear and Adaptive Control Problems. Proc. 2020 European Control Conference (ECC), Saint Petersburg, Russia, P. 791–794. DOI: 10.23919/ECC51009.2020.9143951 (Scopus)

8. Barroso N., Ushirobira R., Efimov D., Fradkov A. (2020) On robustness against disturbances of passive systems with multiple invariant sets. Intern. J. Control. DOI: 10.1080/00207179.2020.1750709 (Scopus, WoS) Q1

9. Dolgopolik M., Fradkov A.L., Andrievsky B. (2020) Observer-based boundary control of the sine-Gordon model energy. Automatica. Vol. 113. DOI: 10.1016/j.automatica.2019.108682 (Scopus, WoS) Q1

10. Fradkov A. (2020) Early ideas of the absolute stability theory. Proc. 2020 European Control Conference (ECC), Saint Petersburg, Russia. P. 762–768. DOI: 10.23919/ECC51009.2020.9143937 (Scopus)

11. Furtat I. (2020) Control of nonlinear systems with compensation of disturbances under measurement noises. Intern. J. Control. Vol. 93, no. 6. P. 1280–1290. DOI: 10.1080/00207179.2018.1503723 (Scopus, WoS) Q1

12. Furtat I. (2020) Divergent Stability Conditions of Dynamic Systems. Autom. Remote Control. Vol. 81, no. 2. P. 247–257. DOI: 10.1134/S0005117920020058 (Scopus, WoS)

13. Furtat I., Gushchin P. (2020) Stability study and control of nonautonomous dynamical systems based on divergence conditions. J. Franklin Institute. Vol. 357, no. 18. P. 13753–13765. DOI: 10.1016/j.jfranklin.2020.10.025 (Scopus, WoS) Q1

14. Furtat I., Gushchin P. (2020) Tracking control of nonlinear systems under input and output disturbances with applications. Proc. 2020 28th Mediterranean Conference on Control and Automation, MED 2020. P. 405–410. DOI: 10.1109/MED48518.2020.9183156 (Scopus)

15. Furtat I., Gushchin P., Peregudin A. (2020) Disturbance attenuation with minimization of ellipsoids restricting phase trajectories in transition and steady state [Фуртат И.Б., Гущин П.А., Перегудин А.А. Подавление возмущений с минимизацией эллипсоидов, ограничивающих фазовые траектории системы в переходном и установившемся режимах. Мехатроника, автоматизация, управление. 2020. Том 21. № 4. С. 195-199]. Mekhatronika, Avtomatizatsiya, Upravlenie. Vol. 21, no. 4. P. 195–199. DOI: 10.17587/mau.21.195-199 (Scopus)

16. Konovalov D., Vrazhevsky S., Furtat I., Kremlev A.S., Cech M. (2020) Output Feedback Control for MIMO systems with Disturbances Compensation. Proc. 2020 European Control Conference (ECC), Saint Petersburg, Russia. P. 380–385. DOI: 10.23919/ECC51009.2020.9143747 (Scopus)

17. Orlov Y., Fradkov A.L., Andrievsky B. (2020) Output Feedback Energy Control of the Sine-Gordon PDE Model Using Collocated Spatially Sampled Sensing and Actuation. IEEE Trans. Automatic Control. Vol. 65, no. 4. P. 1484–1498. DOI: 10.1109/TAC.2019.2921620 (Scopus, WoS) Q1

18. Pogromsky A., Andrievsky B. (2020) Historical Overview of the Speed-gradient Method Applications for Nonlinear Control Problems. Proc. 2020 European Control Conference (ECC), Saint Petersburg, Russia. P. 787–790. DOI: 10.23919/ECC51009.2020.9143589 (Scopus)

19. Seifullaev R., Fradkov A.L., Fridman E. (2020) Energy control of the pendulum without measuring its angular velocity. Proc. 2020 European Control Conference (ECC), Saint Petersburg, Russia. P. 77–82. DOI: 10.23919/ECC51009.2020.9143720 (Scopus)

20. Semenov D., Fradkov A. (2020) Adaptive synchronization for the heterogeneous network of Hindmarsh-Rose neurons. Proc. 2020 European Control Conference (ECC), Saint Petersburg, Russia. P. 306–308. DOI: 10.23919/ECC51009.2020.9143816 (Scopus)

21. Vrazhevsky S., Konovalov D., Furtat I., Kremlev A. (2020) Compensation of mismatched disturbances in nonlinear systems. Proc. 2020 28th Mediterranean Conference on Control and Automation, MED 2020. P. 260–265. DOI: 10.1109/MED48518.2020.9183268 (Scopus)

22. Фуртат И.Б., Нехороших А.Н., Гущин П.А., Чугина Ю.В. Синхронизация электроэнергетической сети в условиях высокочастотных помех измерения // Мехатроника, автоматизация, управление. 2020. Том 21. № 10. С. 584-594. DOI: 10.17587/mau.21.584-594

23. Фуртат И.Б., Нехороших А.Н., Гущин П.А. Робастная стабилизация линейных объектов при наличии возмущений и высокочастотных помех измерения. Управление большими системами. Выпуск 86. М.: ИПУ РАН, 2020. С.32-54. DOI: 10.25728/ubs.2020.86.2

В том числе публикации в изданиях из Q1:

1. Aleksandrov A., Fradkov A.L., Semenov A. (2020) Delayed and switched control of formations on a line segment: Delays and switches do not matter. IEEE Trans. Automatic Control. Vol. 65, no. 2. P. 794–800. DOI: 10.1109/TAC.2019.2918995

2. Andrievsky B., Kudryashova E., Kuznetsov N., Kuznetsova O. (2020) Aircraft wing rock oscillations suppression by simple adaptive control. Aerospace Science and Technology. Vol. 105. DOI: 10.1016/j.ast.2020.106049

3. Barroso N., Ushirobira R., Efimov D., Fradkov A. (2020) On robustness against disturbances of passive systems with multiple invariant sets. Intern. J. Control. DOI: 10.1080/00207179.2020.1750709

4. Dolgopolik M., Fradkov A.L., Andrievsky B. (2020) Observer-based boundary control of the sine-Gordon model energy. Automatica. Vol. 113. DOI: 10.1016/j.automatica.2019.108682

5. Furtat I. (2020) Control of nonlinear systems with compensation of disturbances under measurement noises. Intern. J. Control. Vol. 93, no. 6. P. 1280–1290. DOI: 10.1080/00207179.2018.1503723

6. Furtat I., Gushchin P. (2020) Stability study and control of nonautonomous dynamical systems based on divergence conditions. J. Franklin Institute. Vol. 357, no. 18. P. 13753–13765. DOI: 10.1016/j.jfranklin.2020.10.025

7. Orlov Y., Fradkov A.L., Andrievsky B. (2020) Output Feedback Energy Control of the Sine-Gordon PDE Model Using Collocated Spatially Sampled Sensing and Actuation. IEEE Trans. Automatic Control. Vol. 65, no. 4. P. 1484–1498. DOI: 10.1109/TAC.2019.2921620