федеральное государственное автономное образовательное учреждение высшего образования
«Самарский национальный исследовательский университет имени академика С.П. Королева»

Starinova, Olga L.

  • head
  • professor
  • Department of Further Mathematics, professor
2024
  • 1 Starinova O.L., Khabibullin R.M., Tkachenko I.S. etc. Operating Orbit Maintenance of Earth Remote Sensing Spacecraft with Low-Thrust Propulsion // 2024 10th International Conference on Information Technology and Nanotechnology, ITNT 2024. — 2024. —
2023
  • 1 Starinova 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. —
  • 2 Du Ch., Starinova O.L. Low-thrust transfer dynamics and control between halo orbits in the Earth-Moon system by means of invariant manifold // IEEE Transactions on Aerospace and Electronic Systems 2023. —
  • 3 Kezerashvili V.Ya., Kezerashvili R.Ya., Starinova O.L. Solar sail with inflatable toroidal shell // Acta Astronautica 2023. — Vol. 202. — P. 17-25
  • 4 Du C., Vu K., Starinova O.L. etc. Two trajectory configurations for the low-thrust transfer between northern and southern halo orbits in the Earth-Moon system // Advances in Space Research 2023. — Vol. 72. Issue 10. № 10. — P. 4093-4105
  • 5 Rozhkov M.A., Starinova O.L. Optimization of Solar-Sail Control When a Vehicle Moves along Cyclic Heliocentric Trajectories // Cosmic Research 2023. — Vol. 61. Issue 6. № 6. — P. 534-543
  • 6 Du Ch., Starinova O., Liu Y. Low-thrust transfer trajectory planning and tracking in the Earth–Moon elliptic restricted three-body problem // Nonlinear Dynamics 2023. — Vol. 111. Issue 11. № 11. — P. 10201-10216
  • 7 Starinova O.L., Starostina T.V. Spacecraft Control During The Descent to The Surface of Jupiter's Satellite Callisto // Proceedings of 10th International Conference on Recent Advances in Air and Space Technologies, RAST 2023. — 2023. —
  • 8 Demina A.Yu., Starinova O.L., Ryabova Elena Sergeevna Non-Coplanar Planetary-Centric Dynamics Simulation of Low Thrust Spacecraft // XLIX Самарская областная студенческая научная конференция. — 2023. — Vol. 2. — P. 193-195
  • 9 Du Ch., Starinova O.L., Demina A.Yu. Methodology of Optimal Control of Low-Thrust Spacecraft Transfer Between Halo Orbits Around the Earth-Moon L2 Libration Point // Gyroscopy and Navigation 2023. — Vol. 14. Issue 3. № 3. — P. 205-212
  • 10 Yuy V., Starinova O.L. Study on Displaced Orbits Below the Moon’s South Pole Near L2 Point Based on Solar Sail; [Исследование цилиндрических орбит ниже южного полюса Луны вблизи точки L2 на основе солнечного паруса] // Mekhatronika, Avtomatizatsiya, Upravlenie 2023. — Vol. 24. Issue 12. № 12. — P. 652-659
  • 11 Starinova O.L., Rozkov M.A. Control Program for a Multi-Type Electric Propulsion System for the Earth-Mars-Earth-Jupiter Mission // Proceedings of the International Astronautical Congress, IAC. — 2023. — Vol. 2023-October.
2022
  • 1 Du Ch., Starinova O.L. Generation of Artificial Halo Orbits in Near-Moon Space Using Low-Thrust Engines // Cosmic Research 2022. — Vol. 60. Issue 2. — P. 124-138
  • 2 Du Ch., Starinova Olga L. Optimal Control of Transfer to Vertical Orbits from Lyapunov Orbits Using Low-Thrust Engine [Оптимальное управление при перелетах с малой тягой на вертикальные орбиты с орбит Ляпунова] // Mekhatronika, Avtomatizatsiya, Upravlenie 2022. — Vol. 23. Issue 3. № 3. — P. 158-167
  • 3 Khabibullin R., Starinova O. Attitude and orbit control of a solar sail spacecraft by changing reflectivity of its elements // Mathematics in Engineering, Science and Aerospace 2022. — Vol. 13. Issue 1. — P. 73-84
  • 4 Du Ch., Starinova O.L. Orbital perturbation analysis and generation of nominal near rectilinear halo orbits using low-thrust propulsion // Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering 2022. —
  • 5 Du Ch., Starinova O.L. Оптимальное управление при перелетах с малой тягой на вертикальные орбиты с орбит Ляпунова // Mekhatronika, Avtomatizatsiya, Upravlenie 2022. — Vol. 23. № 3. — P. 158-167
  • 6 Du C., Starinova O.L., Liu Y. Transfer between the planar Lyapunov orbits around the Earth–Moon L2 point using low-thrust engine // Acta Astronautica 2022. — Vol. 201. — P. 513-525
  • 7 Wei X., Chen D., Starinova O. etc. Trajectory Design of Asteroid(469219) Probe with Low-thrust // 2022 13th International Conference on Mechanical and Aerospace Engineering, ICMAE 2022. — 2022. — P. 453-458
  • 8 Starinova 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
  • 1 Khabibullin R., Starinova O. Thrust vector direction and magnitude determination of a solar sail spacecraft with thin-film reflectivity control devices // Proceedings of ITNT 2021 - 7th IEEE International Conference on Information Technology and Nanotechnology. — 2021. —
  • 2 Chekashov A.S., Starinova O.L. Simulation of spacecraft motion to the Earth quasi-satellite (469219) 2016 HO 3 using low-thrust propulsion // 8th Russian-German Conference on Electric Propulsions and Their Application 2020. — 2021. —
  • 3 Kezerashvili R.Y., Starinova O.L., Chekashov A. S. etc. A torus-shaped solar sail accelerated via thermal desorption of coating // Advances in Space Research 2021. — Vol. 67. Issue 9. — P. 2577-2588
  • 4 Rozhkov 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
  • 5 Sergaeva E.A., Starinova O.L. Design and ballistic analysis of spacecraft missions with an electric propulsion system to an asteroid // 8th Russian-German Conference on Electric Propulsions and Their Application 2020. — 2021. —
  • 6 Kezerashvili 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
  • 7 Sergaeva E. A. , Starinova O.L. Motion control of spacecraft with low-thrust engines for a flight to a Near-Earth asteroid // 28th Saint Petersburg International Conference on Integrated Navigation Systems, ICINS 2021. — 2021. —
2020
  • 1 Chernyakina 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.
  • 2 Alipova B., Starinova O.L. Computer modeling of nanosatellite trajectory in the polar coordinate system using matlab interface // ACM International Conference Proceeding Series. — 2020. —
  • 3 Starostina Tatyana Vladimirovna, Starinova O.L. ИССЛЕДОВАНИЕ ПЕРЕЛЁТА ЗЕМЛЯ – ЛУНА КОСМИЧЕСКОГО АППАРАТА НА БАЗЕ ПЛАТФОРМЫ CUBESAT // Всероссийская молодежная научно-практической конференция «Орбита молодежи» и перспективы развития российской космонавтики». — 2020. — P. 313-315
  • 4 Starinova O., Sergaeva E. A. , Danhe C. Motion Control of Low Thrust Spacecraft for Flight to Near-Earth Asteroid 2016HO3 // Proceedings of ITNT 2020 - 6th IEEE International Conference on Information Technology and Nanotechnology. — 2020. —
  • 5 Du Ch., Fayn M.K., Starinova O.L. Analysis and design of halo orbits in cislunar space // IOP Conference Series: Materials Science and Engineering. — 2020. — Vol. 984. Issue 1.
  • 6 Chekashov A. S. , Starinova O.L., Sergaeva E. A. etc. Motion control of the spacecraft with a low thrust engine during flight to near-Earth asteroids // IOP Conference Series: Materials Science and Engineering. — 2020. — Vol. 984. Issue 1.
  • 7 Starinova O., Somov E. I. , Butyrin S. Motion control of a space robot at launching and approaching a geostationary satellite // IOP Conference Series: Materials Science and Engineering. — 2020. — Vol. 984. Issue 1.
2019
  • 1 Starinova 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
  • 2 Chernyakina 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
  • 3 Starinova 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.
  • 4 Sergaeva 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
  • 5 Starinova O.L., Shornikov A.Yu., Sergaeva E.A. Using the iESP Installed on the Space Station Moving in an Irregular Gravitational Field of the Asteroids Eros and GaspraLondon: IntechOpen Limited, 2019. 20p.
2018
  • 1 Sergaeva E. A. , Starinova O. Simulation of a system for protecting earth from asteroid hazard by gravitational spacetug or solar sail // AIP Conference Proceedings. — 2018. — Vol. 2046.
  • 2 Starinova O., Kupczov V., Gao C. etc. Halo-orbit formation in the Earth-Moon system by the electric propulsion spacecraft // AIP Conference Proceedings. — 2018. — Vol. 2046.
  • 3 Starinova 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.
  • 4 Starinova 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
  • 5 Chernyakina I., Starinova O. Modeling the behavior of the spherical type spacecraft with a solar sail // AIP Conference Proceedings. — 2018. — Vol. 2046.
  • 6 Starinova 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.
  • 7 Khabibullin R., Starinova O., Chernyakina I. Nonlinear analysis of three-dimensional guided motion of solar sail spacecraft // AIP Conference Proceedings. — 2018. — Vol. 2046.
  • 8 Shornikov A., Gorbunova I., Starinova O. Stabilized trajectories of a spacecraft in inhomogeneous gravitational fields // AIP Conference Proceedings. — 2018. — Vol. 2046.
  • 9 Khabibullin R.M., Starinova O.L. Mathematical modeling of the solar sail spacecraft threedimensional motionin heliocentric coordinate system // Международная конференция и молодёжная школа «Информационные технологии и нанотехнологии» (ИТНТ-2018). — 2018. — P. 1706-1710
  • 10 Sergaeva E. A. , Starinova O.L. Simulation of Earth's Protection by Kinetic Interceptor from Asteroid Hazard // Journal of Physics: Conference Series. — 2018. — Vol. 1096. Issue 1.
  • 11 Kiunov Y.S., Starinova O.L. Functioning simulation for rotating thin-film solar power plant // AIP Conference Proceedings. — 2018. — Vol. 2046.
  • 12 Fayn 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.
  • 13 Sergaeva 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. —
  • 14 Chekashov 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.
  • 15 Bakhyt 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. —
  • 16 Starinova 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.
2017
  • 1 Starinova O.L., Fayn M.K. Локально-оптимальное управление движением электроракетного буксира между точками либрации системы Земля – Луна // Vestnik of Samara University. Aerospace and Mechanical Engineering 2017. — Vol. 16. № 3. — P. 114-124
  • 2 Starinova O.L., Fayn M. K. , Materova I.L. Time-optimal control of the spacecraft trajectories in the Earth-Moon system // AIP Conference Proceedings. — 2017. — Vol. 1798.
  • 3 Starinova 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
  • 4 Gorbunova I., Starinova O. An approach for the control method's determination for an interplanetary mission with solar sail // AIP Conference Proceedings. — 2017. — Vol. 1798.
  • 5 Khabibullin R., Starinova O. Nonlinear modeling and study for control of the research spacecraft with solar sail // AIP Conference Proceedings. — 2017. — Vol. 1798.
  • 6 Starinova O. Methods of optimal control choice of non-Keplerian orbits // AIP Conference Proceedings. — 2017. — Vol. 1798.
  • 7 Shornikov A., Starinova O. Boundary problem solution of an optimal control transfer between circular orbits for an electric propulsion spacecraft in an irregular gravitational field of an asteroid // AIP Conference Proceedings. — 2017. — Vol. 1798.
  • 8 Shornikov A., Starinova O. Boundary Problem Solution Algorithm for the Task of Controlled Spacecraft Motion in Irregular Gravitational Field of an Asteroid // Procedia Engineering. — 2017. — Vol. 185. — P. 411-417
  • 9 Salmin V.V., Starinova O.L., Volosuev V.V. etc. Optimization methods of near-Earth and interplanetary flights with low thrust // AIP Conference Proceedings. — 2017. — Vol. 1798.
  • 10 Fayn M. K. , Starinova O.L. Low thrust gravity-assisted maneuvers for the spacecraft moving in the Earth-Moon system // Proceedings of 8th International Conference on Recent Advances in Space Technologies, RAST 2017. — 2017. — P. 427-431
  • 11 Gorbunova 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
  • 12 Khabibullin R.M., Starinova O.L., Fayn M. K. etc. The Design of Low Thrust Engine Spacecraft for Near-earth Asteroid Exploration // Procedia Engineering. — 2017. — Vol. 185. — P. 404-410
  • 13 Khabibullin R.M., Starinova O.L. Solar sail space system guidance for monitoring of potentially hazardous asteroids // 2017 24th Saint Petersburg International Conference on Integrated Navigation Systems, ICINS 2017 - Proceedings. — 2017. —
  • 14 Fayn 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
  • 15 Shornikov A., Starinova O. Effectiveness Analyses of an Electrospray Sustainer Engine Installed on a Spacecraft Maneuvering in Vicinity of an Asteroid // Procedia Engineering. — 2017. — Vol. 185. — P. 418-424
  • 16 Somov E. I. , Starinova O., Butyrin S. Pulse-width Control of Electro-reaction Engines for a Station-keeping of Land-survey Satellite on Sun-synchronous Orbit // Procedia Engineering. — 2017. — Vol. 185. — P. 267-274
  • 17 Fayn M. K. , Starinova O.L. Electric propulsion spacecraft guidance for maintenance of the lunar base infrastructure // 2017 24th Saint Petersburg International Conference on Integrated Navigation Systems, ICINS 2017 - Proceedings. — 2017. —
  • 18 Starinova 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
  • 19 Sergaeva E. A. , Starinova O.L. Simulation of a system for protecting earth from asteroid hazard by gravitational spacetug // Proceedings of 8th International Conference on Recent Advances in Space Technologies, RAST 2017. — 2017. — P. 421-425
  • 20 Khabibullin R.M., Starinova O.L. Nonlinear simulation of solar sail spacecraft guided motion for near-Earth object exploration // Proceedings of 8th International Conference on Recent Advances in Space Technologies, RAST 2017. — 2017. — P. 387-391
  • 21 Starinova O., Kezerashvili R.Ya., Rozhkov M. A. etc. Using the spacecraft with a solar sail to monitor a specific area of mars // Proceedings of the International Astronautical Congress, IAC. — 2017. — Vol. 2. — P. 867-873
2016
  • 1 Starinova 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. —
  • 2 Gorbunova 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.
  • 3 Fayn M. K. , Starinova O.L. Low thrust spacecraft transfers optimization method with the stepwise control structure in the Earth-Moon system in terms of the L1-L2 transfer // IOP Conference Series: Materials Science and Engineering. — 2016. — Vol. 124. Issue 1.
  • 4 Khabibullin 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. —
2015
  • 1 Khabibullin R.M., Starinova O.L. The simulation of the interplanetary travel of the solar sail spacecraft to the potentially hazardous asteroid // International Conference on Environmental Engineering and Remote Sensing (EERS 2015). — 2015. — P. 122-125
  • 2 Starinova O.L., GAO ChANGShENG, KUROChKIN D. V. etc. Управление движением электроракетного буксира, обеспечивающего функционирование инфраструктуры окололунного базирования // XX международная научная конференция «Системный анализ, управление и навигация». — 2015. — P. 113-115
  • 3 Shornikov A., Starinova O. Simulation of controlled motion in an irregular gravitational field for an electric propulsion spacecraft // RAST 2015 - Proceedings of 7th International Conference on Recent Advances in Space Technologies. — 2015. — P. 771-776
  • 4 Starinova 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
  • 5 Olga S.L., Andrey S.Y. Control movement of an electric propulsion spacecraft in an irregular gravitational field of the asteroid // Proceedings of the International Astronautical Congress, IAC. — 2015. — Vol. 7. — P. 5391-5397
  • 6 Starinova O., Kurochkin D., Fayn M. K. etc. Optimal control of electric propulsion spacetag for operation of the near lunar infrastructure // Proceedings of the International Astronautical Congress, IAC. — 2015. — Vol. 7. — P. 5223-5230
  • 7 Fayn M. K. , Starinova O.L. Ballistic optimization of the L1-L2 and L2-L1 low thrust transfers in the Earth-Moon system // RAST 2015 - Proceedings of 7th International Conference on Recent Advances in Space Technologies. — 2015. — P. 95-98
  • 8 Gorbunova 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
2014
  • 1 Starinova O.L., Materova I.L. Optimization of lunar mission of a space vehicle with electrojet engine // Actual problems of aviation and aerospace system 2014. — № No.2 (39), volume 19. — P. 163-179
  • 2 Starinova O.L., Salmin V.V. Movement simulation of the variable masses in the Gylden-Meshcherskii problem // AIP Conference Proceedings. — 2014. — Vol. 1637. — P. 950-958
  • 3 Gorbunova I., Starinova O. Analytical control laws of the heliocentric motion of the solar sail spacecraft // AIP Conference Proceedings. — 2014. — Vol. 1637. — P. 358-367
  • 4 Starinova O.L. Optimization methods of laws control of electric propulsion spacecraft in the restricted three-body task // AIP Conference Proceedings. — 2014. — Vol. 1637. — P. 1056-1065
2013
  • 1 Kurochkin D.V., Starinova O.L. Features of optimization of interplanetary flights with low-thrust engines // RAST 2013 - Proceedings of 6th International Conference on Recent Advances in Space Technologies. — 2013. — P. 251-254
  • 2 Gorbunova 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
2012
  • 1 Starinova O.L., Kurochkin D.V., Materova I.L. Optimal control choice of non-Keplerian orbits with low-thrust propulsion // AIP Conference Proceedings. — 2012. — Vol. 1493. — P. 964-971
  • 2 MATEROVA I.L., STARINOVA O.L. The Optimization of Moon’s Mission of Space Vehicle with Electric Jet Power Plant // Международный Российско-Американский журнал «Актуальные проблемы авиационных и космических систем: процессы, модели, эксперимент» 2012. —
2011
  • 1 Stariniva O.L., Materova I.L. The selenocentric orbit's formation as one of guidance problems of spacecraft with low trust which accomplishes transport tasks in the Earth-Moon system // RAST 2011 - Proceedings of 5th International Conference on Recent Advances in Space Technologies. — 2011. — P. 875-878
  • 2 Stariniva O.L., Materova I.L. The low thrust space vehicle optimal guidance during the Earth-Moon system mission // RAST 2011 - Proceedings of 5th International Conference on Recent Advances in Space Technologies. — 2011. — P. 879-884
2001
  • 1 Salmin V.V., Starinova O.L. Optimization of interplanetary flights of spacecraft with low-thrust engines taking into account the ellipticity and noncoplanarity of planetary orbits // Cosmic Research 2001. — Vol. 39. Issue 1. — P. 46-54