The life of the Chief Designer of scientific robotic space systems—Georgii N. Babakin V. V. KhartovV. M. RomanovK. M. Pichkhadze OriginalPaper 08 July 2016 Pages: 443 - 449
Automated vehicles can do everything! L. M. ZelenyiYu. I. Zaytsev OriginalPaper 08 July 2016 Pages: 453 - 459
Outcome of development and initial operational phases of Versatile Space Tugs of the Fregat type V. A. AsyushkinV. P. VikulenkovS. V. Ishin OriginalPaper 08 July 2016 Pages: 460 - 466
Mission operation center of the Lavochkin scientific production association: Work with the interorbital space booster “Fregat” Yu. V. KazakevichI. V. Zefirov OriginalPaper 08 July 2016 Pages: 467 - 475
Thermal destruction calculation method and its results for Fregat Versatile Space Tug during entry into the Earth’s atmosphere V. S. FinchenkoS. N. UstinovA. A. Ivankov OriginalPaper 08 July 2016 Pages: 476 - 484
New high-elliptical meteorological satellite “ARKTIKA-M” V. V. KhartovM. B. MartynovA. S. Mit’kin OriginalPaper 08 July 2016 Pages: 485 - 489
The past, present, and future of super-heavy launch vehicles for research and exploration of the Moon and Mars A. Yu. DanilukV. Yu. KlyushnikovA. S. Osadchenko OriginalPaper 08 July 2016 Pages: 490 - 499
Conceptual design of “Exomars-2018” Descent Module developed by federal enterprise “Lavochkin Association” V. V. KhartovM. B. MartynovS. N. Alexashkin OriginalPaper 08 July 2016 Pages: 500 - 508
Scientific objectives of the scientific equipment of the landing platform of the ExoMars-2018 mission L. M. ZelenyiO. I. KorablevE. V. Larionov OriginalPaper 08 July 2016 Pages: 509 - 517
ESA ExoMars program: The next step in exploring Mars J. VagoO. WitasseR. de Groot OriginalPaper 08 July 2016 Pages: 518 - 528
ACS experiment for atmospheric studies on “ExoMars-2016” Orbiter O. I. KorablevF. MontmessinT. O. Kozlova OriginalPaper 08 July 2016 Pages: 529 - 537
Selecting a landing site for the ExoMars 2018 mission J. L. VagoL. LorenzoniA. M. Zashchirinskiy OriginalPaper 08 July 2016 Pages: 538 - 542
Ballistics and navigation of the flight and descent of the ExoMars-2018 landing module A. E. EvgrafovI. M. MorskoyV. A. Stepaniants OriginalPaper 08 July 2016 Pages: 543 - 549
Management of flight control for “ExoMars-2018” robotic interplanetary space station A. E. ShirshakovM. I. ArtyukhovA. I. Kalashnikov OriginalPaper 08 July 2016 Pages: 550 - 556
Preliminary results of the calculated and experimental studies of the basic aerothermodynamic parameters of the ExoMars landing module V. S. FinchenkoA. A. IvankovA. S. Mordvinkin OriginalPaper 08 July 2016 Pages: 557 - 568
Pyro devices for the “ExoMars-2018” space complex separation V. V. EfanovV. V. GorovtsovS. A. Dushenok OriginalPaper 08 July 2016 Pages: 569 - 572
Radioastron: Main results of the implementation of the early science program in studies of astronomical objects in the universe with ultra-high angular resolution N. S. KardashevA. V. AlakozK. V. Sokolovsky OriginalPaper 08 July 2016 Pages: 573 - 579
PLASMA-F experiment: Three years of on-orbit operation L. M. ZelenyiG. N. ZastenkerO. M. Chugunova OriginalPaper 08 July 2016 Pages: 580 - 603
Development of precision structure of a large-size space radio telescope A. S. AstavinV. S. KovalevV. A. Serebrennikov OriginalPaper 08 July 2016 Pages: 604 - 609
Analysis of SPEKTR-R spacecraft operating modes for various algorithms of high gain antenna drive control P. P. TelepnevV. V. EfanovV. Yu. Ermakov OriginalPaper 08 July 2016 Pages: 610 - 613
An effective new technology for the distributed processing of measurement data by S/C automated control system D. A. LovtsovA. V. Loban OriginalPaper 08 July 2016 Pages: 614 - 620