2022 Повышение квалификации: Самарский университет, Навыки оказания первой помощи
2021 Повышение квалификации: Самарский университет, Электронная информационно-образовательная среда университета
2018 Повышение квалификации: Самарский университет, Элетронная информационно-образовательная среда университета
2018 Повышение квалификации: Самарский университет, "Навыки оказания первой помощи"
2018 Повышение квалификации: Самарский университет, "Инклюзивное профессиональное образование"
2018 Профессиональная переподготовка: Самарский национальный исследовательский университет имени академика С.П.Королева, По программе "Методика преподавания математики в высшей школе"
2012 - 2014 Высшее образование - специалитет, магистратура: Самарский государственный аэрокосмический университет имени академика С.П.Королева, факультет Летательные аппараты
2006 - 2012 Высшее: Самарский государственный аэрокосмический университет имени академика С.П.Королева, факультет Летательные аппараты
2022 Повышение квалификации: Самарский университет, Инклюзивное профессиональное образование
2023
1Starinova O.L., Tkachenko I.S., Khabibullin R.M. etc. Algorithms of the control programs formation for the Earth remote sensing spacecraft // 2023 IX International Conference on Information Technology and Nanotechnology (ITNT). — 2023. —
2022
1Starinova O., Chen D., Sergaeva E.A. etc. Motion control of a electric propulsion observation spacecraft in a irregular gravitational field // 2022 8th International Conference on Information Technology and Nanotechnology, ITNT 2022. — 2022. —
2021
1Rozhkov M. A. , Starinova O.L., Chernyakina I.V.Influence of optical parameters on a solar sail motion // Advances in Space Research 2021. — Vol. 67. Issue 9. — P. 2757-2766
2Kezerashvili R.Ya., Chernyakina I.V., Starinova O.L. etc. The effects temperature restriction on solar-sail spacecraft motion controlling in the nearest sun vicinity // Advances in the Astronautical Sciences. — 2021. — Vol. 174. — P. 17-26
3Chernyakina I.V.Solar sailing in realistic mode, based on a locally-optimal control laws // Advances in Space Research 2021. — Vol. 67. Issue 9. — P. 2844-2854
2020
1Chernyakina I.V., Rozhkov M. A. , Starinova O.L.Influence of temperature restrictions on the heliocentric motion controlling of a solar-sailing spacecraft // IOP Conference Series: Materials Science and Engineering. — 2020. — Vol. 984. Issue 1.
2019
1Chernyakina I., Khabibullin R., Chernyakin S. etc. Comparative analysis by different types of the solar-sailing spacecraft leaving the Earth's action sphere // Mathematics in Engineering, Science and Aerospace 2019. — Vol. 10. Issue 4. — P. 671-680
2Starinova O.L., Rozhkov M. A. , Alipova B. etc. Modeling the process of optical characteristics variation for a solar sail surface during heliocentric flights // Journal of Physics: Conference Series. — 2019. — Vol. 1368. Issue 2.
3Sergaeva E. A. , Starinova O.L., Shornikov A.U. etc. Ballistic and design of nano-class spacecraft for asteroid exploration // Proceedings of 9th International Conference on Recent Advances in Space Technologies, RAST 2019. — 2019. — P. 89-94
4Starinova O., Chemyakina I.Controlling flight from earth to jupiter by solar-sail spacecraft in realistic mode // Proceedings of 9th International Conference on Recent Advances in Space Technologies, RAST 2019. — 2019. — P. 261-265
2018
1Bakhyt A., Chekashov A.S., Gorbunova I.V. etc. Mathematical simulation of interplanetary flight: Model of solar sail surface oscillations // IEEE 12th International Conference on Application of Information and Communication Technologies, AICT 2018 - Proceedings. — 2018. —
2Starinova O.L., Chernyakina I.V.Solar system escape mission with solar sail spacecraft: Within a framework of post-Newtonian gravitational theory // JBIS - Journal of the British Interplanetary Society 2018. — Vol. 71. Issue 12. — P. 438-442
3Starinova O.L., Chernyakina I.V.The mission's design of a solar sail spacecraft to the nearest circumsolar space, based on a locally-optimal control laws // Proceedings of the International Astronautical Congress, IAC. — 2018. — Vol. 2018-October.
4Sergaeva E. A. , Chernyakina I.V., Starinova O. etc. Simulation of Earth's Protection by Solar Sail from Asteroid Hazard // IEEE 12th International Conference on Application of Information and Communication Technologies, AICT 2018 - Proceedings. — 2018. —
5Starinova O.L., Chernyakina I.V.The mission's design of solar sail spacecraft based on locally-optimal control laws // AIP Conference Proceedings. — 2018. — Vol. 2046.
6Starinova O.L., Rozhkov M. A. , Gorbunova I.V.Sunlight reflection off the spacecraft with a solar sail on the surface of mars // AIP Conference Proceedings. — 2018. — Vol. 1959.
7Chernyakina I., Starinova O.Modeling the behavior of the spherical type spacecraft with a solar sail // AIP Conference Proceedings. — 2018. — Vol. 2046.
8Shornikov A., Gorbunova I., Starinova O.Stabilized trajectories of a spacecraft in inhomogeneous gravitational fields // AIP Conference Proceedings. — 2018. — Vol. 2046.
9Chekashov A.S., Starinova O.L., Alipova B. etc. Modeling of solar sail surface oscillations during interplanetary flight // Journal of Physics: Conference Series. — 2018. — Vol. 1096. Issue 1.
10Khabibullin R., Starinova O., Chernyakina I.Nonlinear analysis of three-dimensional guided motion of solar sail spacecraft // AIP Conference Proceedings. — 2018. — Vol. 2046.
11Fayn M. K. , Starinova O., Chernyakina I.Angular motion control of electric propulsion spacecraft transfers between L1 and L2 libration points of the Earth-Moon system // AIP Conference Proceedings. — 2018. — Vol. 2046.
2017
1Gorbunova I., Starinova O.An approach for the control method's determination for an interplanetary mission with solar sail // AIP Conference Proceedings. — 2017. — Vol. 1798.
2Starinova O.L., Gorbunova I.V., Chekashov A. S. etc. Mathematical modeling of solar sail spacecraft guidance by considering the form of surface // Proceedings of 8th International Conference on Recent Advances in Space Technologies, RAST 2017. — 2017. — P. 439-442
3Starinova O.L., Gorbunova I.V., Fayn M. K. etc. Application of Electric Propulsion for Motion Control of Spacecraft which Function on Non Keplerian Orbits // Procedia Engineering. — 2017. — Vol. 185. — P. 291-298
4Gorbunova I., Starinova O.Feedback control of the spacecraft with a solar sail for interplanetary flights // Advances in the Astronautical Sciences. — 2017. — Vol. 161. — P. 315-324
5Fayn M. K. , Starinova O.L., Gorbunova I.V. etc. Simulation of Low Thrust Spacecraft Guided Motion for a Number of Missions in the Solar System // Procedia Engineering. — 2017. — Vol. 185. — P. 275-282
2016
1Khabibullin R.M., Starinova O.L., Salmin V.V. etc. Optimization of Electric Propulsion Space Transport System for Delivery of Space Vehicles to the Moon // Conference on Space Propulsion 2016. — 2016. —
2Gorbunova I., Khabibullin R., Chernyakin S. etc. The finite-element behaviour simulation of the rotary-type and frame-type solar sails on the geocentric orbits // IOP Conference Series: Materials Science and Engineering. — 2016. — Vol. 124. Issue 1.
3Starinova O., Gorbunova I., Khabibullin R. etc. Optimal control of solar sail space system for monitoring of potentially dangerous asteroids // Proceedings of the International Astronautical Congress, IAC. — 2016. —
2015
1Gorbunova I., Starinova O.Control of the spacecraft with a solar sail, performing an interplanetary flight // RAST 2015 - Proceedings of 7th International Conference on Recent Advances in Space Technologies. — 2015. — P. 111-115
2Starinova O.L., Khabibullin R.M., Gorbunova I.V.The project of the small frame-type solar sail spacecraft // RAST 2015 - Proceedings of 7th International Conference on Recent Advances in Space Technologies. — 2015. — P. 643-648
2014
1Gorbunova I., Starinova O.Analytical control laws of the heliocentric motion of the solar sail spacecraft // AIP Conference Proceedings. — 2014. — Vol. 1637. — P. 358-367
2013
1Gorbunova I., Starinova O., Olga S.Complex simulation of the solar sail spacecraft // RAST 2013 - Proceedings of 6th International Conference on Recent Advances in Space Technologies. — 2013. — P. 285-290
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Решение и применение обыкновенных дифференциальных уравнений и их систем