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scientific edition of Bauman MSTU

SCIENCE & EDUCATION

Bauman Moscow State Technical University.   El № FS 77 - 48211.   ISSN 1994-0408

Space Robotics: Current Status, Long-term Objectives, and Development Trends. Analytical Review

# 12, December 2016
DOI: 10.7463/1216.0853919
Article file: SE-BMSTU...o153.pdf (2026.00Kb)
author: P.P. Belonozhko1,*



1 Bauman Moscow State Technical University, Moscow, Russia

Prospects for space robotics concern both the development of used prototypes to extend the capabilities and the creation of new classes of systems, the operating analogues of which are, currently, unavailable. Thus, a uniqueness of the objects of space robotics, extreme operating conditions, difficulty in full-scale ground work and tests define a variety of design solutions and a wide scope of issues for further theoretical and experimental studies.
The paper highlights the tasks successfully solved up to date, involving the space robotics equipment that was used in orbital environment, those of currently solved, involving the robotics equipment that is in use, and the long-term objectives, following from the logic of the space technology development to define the ways of its further development and require a development and creation of new equipment of space robotics.
Thus, the development trends of space robotics are largely defined by its history of development, on the one hand, and by a growing demand for the robotic service as applied to the promising objects of space technology, on the other one.
The paper considers the trends of space robotics development, which are a consequence of the natural logic of its development and are determined by a demand for advanced objects of space technology in robotic servicing. Highlights the most important elements of a design concept and the creating and operating features of the multipurpose extendable space systems, including those, which have no analogues and prototypes, are rolled into one demand for automation, and associated with their creation, operation, and problems of utilization. The concept of assembly and service autonomous robotic space modules has been under consideration. Within the orbital assembly procedure, the typical dynamic modes, relevant in terms of practical implementation of controlled movement are highlighted.

References
  1. Gradovtsev A.A., Kondrat'ev A.S., Timofeev A.N. Robototekhnicheskoe obespechenie dlia ob"ektov perspektivnoi kosmicheskoi infrastruktury [Robotic systems for prospective space infrastructure functions support]. International scientific-technical conference “Extreme Robotics”, 23--25 November, 2011. Russian State Scientific Center for Robotics and Technical Cybernetics (RTC), Saint Petersburg, 2011. Available at: http://er.rtc.ru , accessed 12.11.2016.
  2. Moving objects management. Bibliographic index. In 3 issues. Iss. 1. Space objects. V. A. Trapeznikov Institute of Control Sciences of Russian Academy of Sciences. Moscow, 2011. 268 p.
  3. Thronson H.A., Akin D., Lester J. The Evolution and Promise of Robotic In-Space Servicing. AIAA SPACE 2009 Conference & Exposition, 14-17 September 2009, Pasadena, California. AIAA 2009-6545. Available at: http://www.enu.kz/repository/2009/AIAA-2009-6545.pdf , accessed 12.11.2016.
  4. Lysyi S.R. Nauchno-tekhnicheskie problemy i perspektivy razvitiia robototekhniki spetsial'nogo (kosmicheskogo) naznacheniia. “Extreme Robotics”. Proceedings of the International scientific-technical conference. Politekhnika-servis. Saint Petersburg, 2015. P. 29--32.
  5. Lopota V.A., Iurevich E.I. O nekotorykh perspektivnykh napravleniiakh razvitiia kosmicheskoi robototekhniki. RSC Energia site: http://www.energia.ru
  6. Lopota A.V., Iurevich E.I. Etapy i perspektivy razvitiia modul'nogo printsipa postroeniia robototekhnicheskikh sistem. Nauchno-tekhnicheskie vedomosti SPbGPU = SPbPU Scientific and technical statements. 2013. No. 1. P. 98-103.
  7. Iushchenko A.S. Chelovek i robot -- sovmestimost' i vzaimodeistvie. Robotics and Technical Cybernetics. 2014. No. 1(2). P. 4-9.
  8. Makarychev V.P., Iurevich E.I. Supervizornoe upravlenie kosmicheskimi manipuliatorami. Asterion. Saint Petersburg, 2005. 108 p.
  9. Cosmonautics of the 21st century. Under ed. by B.E. Chertok. RTSoft. Moscow, 2010. 864 p.
  10. NASA: official website. Available at: http://www.nasa.gov/ ,accessed 12.11.2016.
  11. CSA: official website. Available at: http://www.asc-csa.gc.ca/eng/default.asp ,accessed 12.11.2016.
  12. Alpatov A.P., Belonozhko P.A., Belonozhko P.P., Kuz'mina L.K., Tarasov S.V., Fokov A.A. Perspektivy ispol'zovaniia i osobennosti issledovaniia dinamiki kosmicheskikh manipuliatorov s uprugimi konstruktivnymi elementami. Tekhnicheskaia mekhanika = Technical mechanics. 2012. No. 1. P. 82-93.
  13. Kaupp E., Bains E., Flores R., Jorgensen G., Kuo Y.M., White H. Shuttle Robotic Arm. Engineering Innovations. P. 286-301. Available at: http://www.nasa.gov/centers/johnson/pdf/584734main_Wings-ch4h-pgs286-301.pdf ,accessed 12.11.2016.
  14. Stockman B., Boyle J., Bacon J. International Space Station Systems Engineering Case Study. Available at: http://spacese.spacegrant.org/uploads/images/ISS/ISS%20SE%20Case%20Study.pdf ,accessed 12.11.2016.
  15. Lyndsey Poynter, P. The role of dexterous robotics in ongoing maintenance of the ISS. Andrew Keenan. IAC-12,B3,4-B6.5,6,x16014
  16. Flexible robot manipulators: modelling, simulation and control. (IET control series). ISBN 978-0-86341-448-0
  17. Vasil'ev V.V. Vvedenie v orbital'noe servisnoe obsluzhivanie. Elmis. Kiev, 2013, 28 p. ISBN 978-617-696-111-6
  18. Timofeev A.N., Shardyko I.V. Problemy primeneniia v kosmose antropomorfnykh robotov. Robotics and Technical Cybernetics. 2013. No 1. P. 37-41.
  19. Iaskevich A.V., Ostroukhov L.N., Egorov S.N., Chernyshev I.E. Opyt polunaturnoi otrabotki prichalivaniia rossiiskogo modulia k Mezhdunarodnoi kosmicheskoi stantsii distantsionno upravliaemym manipuliatorom SSRMS. Robotics and Technical Cybernetics. 2013. No. 1. P. 53-58.
  20. Syromiatnikov V.S. Stykovochnye ustroistva kosmicheskikh apparatov. Mashinostroenie = Mechanical engineering. Moscow, 1984. 216 p.
  21. Syromiatnikov V.S. 100 stories about coupling and other adventures in space and on Earth. Part 1: 20 years ago. Logos. Moscow, 2003. 568 p. [In Russian]
  22. Syromiatnikov V.S. 100 stories about coupling and other adventures in space and on Earth. Part 1: 20 years ago. Part 2: 20 years after. Universitetskaia kniga = University book; Logos. Moscow, 2010. 568 p.
  23. Alpatov A.P., Belonozhko P.A., Gorbuntsov V.V., Ivlev O.G., Cherniavskaia S.S., Shichanin V.N. Dinamika prostranstvenno-razvitykh mekhanicheskikh sistem izmeniaemoi konfiguratsii. Naukova dumka. Kiev, 1990. 256 p.
  24. Alpatov A.P., Belonozhko P.A., Belonozhko P.P., Grigor'ev S.V., Tarasov S.V., Fokov A.A. Modelirovanie dinamiki kosmicheskikh manipuliatorov na podvizhnom osnovanii. RoboticsandTechnicalCybernetics. 2013. No. 1. P. 59-65.
  25. Artemenko Iu.N., Belonozhko P.P., Karpenko A.P., Saiapin S.N., Fokov A.A. Ispol'zovanie mekhanizmov parallel'noi struktury dlia vzaimnogo pozitsionirovaniia poleznoi nagruzki i kosmicheskogo apparata. RoboticsandTechnicalCybernetics. 2013. No. 1. P. 65-71.
  26. Alpatov A.P., Belonozhko P.A., Belonozhko P.P., Tarasov S.V., Fokov A.A.. Osobennosti sinteza sistemy upravleniia kosmicheskim manipuliatorom. Aktual'nye problemy aviatsionnykh i aerokosmicheskikh sistem = Actual problems of aviation and aerospace systems. 2010. Vol. 15, No. 2(31). P. 38-57.
  27. The International Encyclopedia CALS. Aerospace engineering. Chief editor A.G. Bratukhin. OAO “NITs ASK”. Moscow, 2015. 608 p.
  28. Zgurovskii M.Z., Bidiuk P.I. Analiz i upravlenie bol'shimi kosmicheskimi konstruktsiiami. National Technical University of Ukraine “Kyiv Polytechnic Institute”. Naukova dumka. Kiev, 1997. 451 p.
  29. Banichuk N.V., Karpov I.I., Klimov D.M. et al. Mekhanika bol'shikh kosmicheskikh konstruktsii. Faktorial. Moscow, 1997. 302 p.
  30. Medzmariashvili E.V. Transformiruemye konstruktsii v kosmose i na zemle. Tbilisi, 1995. 446 p.
  31. Rutkovskii V.Iu., Sukhanov V.M. Bol'shie kosmicheskie konstruktsii: modeli, metody issledovaniia i printsipy upravleniia. I. Avtomatika i telemekhanika = Automation and Remote Control, 1996, issue 7, P. 52-65.
  32. Rutkovskii V.Iu., Sukhanov V.M. Bol'shie kosmicheskie konstruktsii: modeli, metody issledovaniia i printsipy upravleniia. II. Avtomatika i telemekhanika = Automation and Remote Control, 1996, issue 8, P. 55-66.
  33. Zemliakov S.D., Rutkovskii V.Iu., Sukhanov V.M. Nekotorye problemy upravleniia pri robotizirovannoi sborke bol'shikh kosmicheskikh konstruktsii na orbite. Avtomatika i telemekhanika = Automation and Remote Control. 2006. No. 8. P. 36-50.
  34. Moosavian S. Ali A., Papadopoulos E. Free-flying robots in space: an overview of dynamics modeling, planning and control. Robotica, 2007. Volume 25. Р. 537-547. DOI: 10.1017/S0263574707003438
  35. Bogomolov V.P., Rutkovskii V.Iu., Sukhanov V.M. Proektirovanie optimal'noi mekhanicheskoi struktury svobodnoletaiushchego kosmicheskogo robototekhnicheskogo modulia kak ob"ekta avtomaticheskogo upravleniia. I. Avtomatika i telemekhanika = Automation and Remote Control, 1998, issue 5, P. 27-40.
  36. Glumov V.M., Rutkovskii V.Iu., Sukhanov V.M. Analiz osobennostei upravleniia pereletami kosmicheskogo robotizirovannogo modulia vblizi poverkhnosti orbital'noi stantsii. I. Upravlenie orientatsiei modulia. Journal of Computer and Systems Sciences International. 2002. No. 2. P. 162-169.
  37. Glumov V.M., Rutkovskii V.Iu., Sukhanov V.M. Analiz osobennostei upravleniia pereletami kosmicheskogo robotizirovannogo modulia vblizi poverkhnosti orbital'noi stantsii. II. Upravlenie traektornymi peremeshcheniiami modulia. Journal of Computer and Systems Sciences International. 2002. No. 3. P. 140-148.
  38. Rutkovskii V.Iu., Sukhanov V.M., Glumov V.M. Upravlenie mnogorezhimnym kosmicheskim robotom pri vypolnenii manipuliatsionnykh operatsii vo vneshnei srede. Avtomatika i telemekhanika = Automation and Remote Control, 2010, issue 11, P. 96-111.
  39. Rutkovskii V.Iu., Sukhanov V.M., Glumov V.M. Uravneniia dvizheniia i upravlenie svobodnoletaiushchim kosmicheskim manipuliatsionnym robotom v rezhime rekonfiguratsii. Avtomatika i telemekhanika = Automation and Remote Control, 2010, issue 1, P. 80-98.
  40. Rutkovskii V.Iu., Sukhanov V.M., Glumov V.M. Nekotorye zadachi upravleniia svobodnoletaiushchimi kosmicheskimi manipuliatsionnymi robotami. I. Mekhatronika, avtomatizatsiia, upravlenie, 2010, No. 10, P. 52--59.
  41. Rutkovskii V.Iu., Sukhanov V.M., Glumov V.M. Nekotorye zadachi upravleniia svobodnoletaiushchimi kosmicheskimi manipuliatsionnymi robotami. II. Mekhatronika, avtomatizatsiia, upravlenie, 2010, No. 12, P. 54--65.
  42. Belonozhko P.P. Perspektivnye montazhno-servisnye robotizirovannye kosmicheskie moduli. RoboticsandTechnicalCybernetics, No. 2(7), 2015. P. 18-23.
  43. Daliaev I.Iu., Shardyko I.V., Kuznetsova E.M. Perspektiva sozdaniia robotizirovannykh servisnykh sputnikov dlia tekhnicheskogo obsluzhivaniia i prodleniia srokov aktivnogo sushchestvovaniia kosmicheskikh apparatov. RoboticsandTechnicalCybernetics, No. 3(8), 2015. P. 27-31.
  44. Pugachenko S.E. Proektirovanie orbital'nykh stantsii. Textbook. Bauman Moscow State Technical University, 2009. 175 p.
  45. Gaponov V.A., Zhelezniakov A.B. “Mir” station: from triumph to… Sistema = System. Saint Petersburg, 2007. 380 p.
  46. Burridge Robert R., Graham Jeffrey (S&.К Electronics). Providing robotic assistance during extra-vehicular activity. SPIE Conference on “Mobile Robots XVI”, Newton, 29--30 Oct., 2001. 4573. P. 22-33.
  47. Visentin Gianfranco. Robotic programs and applications at ESA: present and perspectives. Robotics and Automation in Space. Proc. of “The 8th International Symposium on Artifical Intelligence, Robotics and Automation in Space -- iSAIRAS”, Munich, Germany. 5-8 September 2005, (ESA SP-603, August 2005). P. 1-7.
  48. Ueno Hiroshi, Oda Mitsushige, Inaba Kazuyuki (Japan Aerospace Exploration Agency, Tsukuba, Ibaraki, Japan). Robotics experimental study for SSPS walking and assembly technology. Proc. of “The 8th International Symposium on Artifical Intelligence, Robotics and Automation in Space -- iSAIRAS”, Munich, Germany. 5-8 September 2005, (ESA SP-603, August 2005). P. 427-430.
  49. Heger Frederik W., Hiatt Laura M., Sellner Brennan, Simmons Reid, Singh Sanjiv (The Robotics Institute, Carnegie Melon University, Pittsburgh, USA). Results in sliding autonomy for multi-robot spatial assembly. Proc. “ISAIRAS 2005 Conference”, Munich, Germany, 5-8 September 2005 (ESA SP-603, September 2005). P. 448-455.
  50. Tanaka Hideyuki, Yamamoto Noritaka, Yairi Takehisa, Machida Kazuo (Research Center for Advanced Science and Technology, University of Tokyo, Japan). Precise assembly by autonomous space robot using skill acquisition learning. Proc. of “The 8th International Symposium on Artifical Intelligence, Robotics and Automation in Space -- iSAIRAS”, Munich, Germany. 5-8 September 2005, (ESA SP-603, August 2005). P. 552-559.
  51. Stroupe Ashley W., Huntsberger Terry, Kennedy Brett, Aghazarian Hrand, Baumgartner Eric Т., Ganino Anthony, Garrett Michael, Okon Avi, Robinson Matthew, Townsend Julie Anne (Jet Propulsion Laboratory/California Institute of Technology, Drive, MS 82-105, Pasadena, CA, USA). Proc. of “The 8th International Symposium on Artifical Intelligence, Robotics and Automation in Space -- iSAIRAS”, Munich, Germany. 5-8 September 2005, (ESA SP-603, August 2005). P. 567-573.
  52. Hirzinger G., Landzettel K., Reintsema D., Preusche C., Albu-Schäffer A., Rebele В., Turk M. (DLR (German Aerospace Center)). ROKVISS -- robotics component verification on ISS. Proc. of “The 8th International Symposium on Artifical Intelligence, Robotics and Automation in Space -- iSAIRAS”, Munich, Germany. 5-8 September 2005, (ESA SP-603, August 2005). P. 55-65.
  53. Shi Shicai, Xie Zongwu, Ni Fenglei, Liu Hong (Robotics Institute, Harbin Institute of Technology, Harbin, China). Xi'an jiaotong daxue xuebao J. Xi'an Jiaotong Univ. 2007. 41, No. 2. P. 162-166.
  54. McCourt Richard A., de Silva Clarence W. Autonomous robotic capture of a satellite using constrained predictive control. IEEE/ASME Trans. Mechatron. 2006. 11, No. 6. P. 699-708.
  55. “Molniya” Research & Industrial Corporation -- Official website. Available at: http://www.buran.ru, accessed 17.12.2016.
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