Search by keyword: "spacecraft"
Methods of the space debris observation and detection and structural analysis of the required system therefor
| Authors: Barbashin D.S. | Published: 16.09.2024 |
| Published in issue: #4(93)/2024 | |
| DOI: DOI: | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Innovation Technologies of Aerospace Engineering | |
| Keywords: rocket and space industry, spacecraft, space debris, geostationary orbit, man-made space objects, system engineering, functional and technical requirements, structural analysis | |
Designing a database of Russian small spacecraft launches to collect information on space debris
| Authors: Pasynkov A.A., Sveshnikova A.S., Titov O.G. | Published: 24.06.2022 |
| Published in issue: #6(71)/2022 | |
| DOI: DOI: 10.18698/2541-8009-2022-6-799 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Dynamics, Ballistics, Motion Control | |
| Keywords: databases, launches, spacecraft, satellite, space debris, forecasting, trend model | |
Analysis and comparison of methods for predicting launches of satellites of various types into low Earth orbit
| Authors: Pasynkov A.A., Sveshnikova A.S., Titov O.G. | Published: 18.02.2022 |
| Published in issue: #2(67)/2022 | |
| DOI: DOI: 10.18698/2541-8009-2022-2-767 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Dynamics, Ballistics, Motion Control | |
| Keywords: forecasting, launches, spacecraft, satellite, trend model, time (dynamic) series, regression analysis | |
Substantiation of design and technological parameters of anti-meteoroid protection for critical elements of modern spacecraft
| Authors: Smirnov A.V., Mikhailova M.A. | Published: 13.12.2021 |
| Published in issue: #12(65)/2021 | |
| DOI: DOI: 10.18698/2541-8009-2021-12-753 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircrafts Development, Design and Manufacture | |
| Keywords: space debris, spacecraft, impact interaction, shield, high velocity impact, ballistic curve, numerical simulation, protective structures | |
Analysis of spacecraft launches to the planets of the solar system
| Authors: Konoplyanova I.A., Kireev I.M. | Published: 23.12.2020 |
| Published in issue: #12(53)/2020 | |
| DOI: DOI: 10.18698/2541-8009-2020-12-663 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Innovation Technologies of Aerospace Engineering | |
| Keywords: analysis, launch, spacecraft, trend model, planet, solar system, forecast, forecasting methods | |
Optimization of the spacecraft launch into orbit
| Authors: Gorokhov I.E. | Published: 03.09.2020 |
| Published in issue: #7(48)/2020 | |
| DOI: DOI: 10.18698/2541-8009-2020-7-628 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Dynamics, Ballistics, Motion Control | |
| Keywords: optimal control, spacecraft, launch into orbit, pitch angle, boundary value problem, geostationary orbit, Pontryagin’s maximum method, system of differential equations, optimality criterion, launch vehicle | |
Digital twins in the rocket and space industry: problems and prospects for implementation
| Authors: Korolev D.V. | Published: 21.04.2020 |
| Published in issue: #4(45)/2020 | |
| DOI: DOI: 10.18698/2541-8009-2020-4-594 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Innovation Technologies of Aerospace Engineering | |
| Keywords: digital twin, rocket and space industry, rocket and space technology, spacecraft, information technology, big data, Internet of things, modeling | |
Analysis of the level of protection of modern spacecraft from high-speed impact of space debris particles
| Authors: Schetchikov O.D., Petrenko A.D. | Published: 10.09.2019 |
| Published in issue: #9(38)/2019 | |
| DOI: DOI: 10.18698/2541-8009-2019-9-519 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Innovation Technologies of Aerospace Engineering | |
| Keywords: space debris, spacecraft, anti-meteoroid protection, mathematical modeling, high-speed impact, orbital module, science power module, International Space Station | |
Study of libration points in the Sun – Venus system in order to form the orbital system for the study of the Venus atmosphere
| Authors: Zubko V.A., Belyaev A.A. | Published: 07.08.2019 |
| Published in issue: #8(37)/2019 | |
| DOI: DOI: 10.18698/2541-8009-2019-8-508 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircraft Dynamics, Ballistics, Motion Control | |
| Keywords: limited three-body circular problem, libration points, stability, formation of the orbital system, Sun, Venus, spacecraft, Lyapunov method | |
Forecasting launches of certain types of satellites for the long term using the extrapolation method
| Authors: Pivovarov V.A., Soboleva T.N., Tsigankova E.A. | Published: 27.03.2019 |
| Published in issue: #3(32)/2019 | |
| DOI: DOI: 10.18698/2541-8009-2019-3-454 | |
| Category: Aviation and Rocket-Space Engineering | Chapter: Aircrafts Development, Design and Manufacture | |
| Keywords: satellite, forecasting, analysis, space market, launches, space junk, trend model, spacecraft | |