Aircraft Designing and Manufacturing

Dolgov O., Kuprikov N., Rabinskiy L., Doronin D., Ivanov B.

OLEG DOLGOV, Doctor of Engineering Sciences, Professor, Aircraft Design Department, NIKITA KUPRIKOV, Candidate of Technical Sciences, Associate Professor, Aircraft Design Department, Science Researcher, Functional Nanostructures for Spacecrafts, e‑mail: nkuprikov@mai.ru. LEV RABINSKIY, Doctor of Physical and Mathematical Sciences, Professor, Dean, School of Applied Mechanics, e‑mail: f9_dec@mai.ru
Moscow Aviation Institute (National Research University).
4 Volokolamskoe Av., A-80, GSP-3, Moscow, Russia, 125993
DENIS DORONIN, Science Researcher, e-mail: doroninden@gmail.com
LTD Arctic Center.
13A, of. 13-H, Olga Forsch St., Saint-Petersburg, Russia, 195269
BORIS IVANOV, Candidate of Geographic Sciences, Head of Laboratory, e-mail: b_ivanov@aari.ru
Arctic and Antarctic Research Institute.
38 Bering St., Saint-Petersburg, Russia, 199397

Increasing the competitiveness of the Russian strategic infrastructure projects in Arctic by way of the communication between the aerospace systems and the autonomous land and sea monitoring stations

Abstract: The article presents the peculiarities of creating an infrastructure which will make it possible to provide a real time control over the Russian strategic infrastructure projects in Arctic by way of the communication between the aerospace systems and the autonomous land and sea monitoring stations. The application of new information technologies and that of the hardware and software ensuring the competitiveness will enable one to safely and effectively use various high technologies in navigation, aviation, and space.
Key words: Arctic, competitiveness, monitoring, cooperation, space, hardware and software systems.

REFERENCES

  1. Alekseev G.V. Arctic measurement of Global warming. Ice and Snow (J.). 2014(54);2:53-68. (in Russ). [Alekseev G.V. Arcticheskoe izmerenie global’nogo potepleniya // Led I sneg. 2014. T. 54, N 2. S. 53–68.].
  2. Kuprikov N.M. Allowance of the requirements for exploitation in the Arctic on the appearance of  the aircraft as the basis for competitiveness in the global market. J. of the Academy of Military Sciences. 2012(40);3:120–123. (in Russ). [Kuprikov N.M. Uchet trebovaniy ekspluatatsii v Arktike na oblik letatel'nogo apparata kak osnova povysheniya konkurentosposobnosti na mirovom rynke // Zhurnal Akademii Voyennykh Nauk. 2012. T. 40, N 3. S. 120-123].
  3. Kuprikov N.M., Dolgov O.S. Organizational and economic aspects of the operating conditions of the regional aircraft in the Arctic Region of the Russian Federation. Proceedings of Moscow youth scientific-practical conference “Innovations in aviation and astronautics-2015”. Moscow, MAI, 2015. P. 72 (in Russ). [Kuprikov N.M., Dolgov O.S. Organizatsionno-ekonomicheskiye aspekty usloviy ekspluatatsii regional'nykh samolotov v arkticheskom regione Rossiyskoy Federatsii // Tezisy Moskovskoy molodozhnoy nauchno-prakticheskoy konferentsii “Innovatsii v aviatsii i kosmonavtike-2015”. M.: MAI, 2015. P. 72].
  4. Kuprikov N.M., Dolgov O.S., Kutakhov V.P. Organizational and economic mechanisms of control for development exploitation system of regional aircraft in the Arctic Region of the Russian Federation. J. Academy of Military Sciences. 2014;4:99-103. (in Russ). [Kuprikov N.M., Dolgov O.S., Kutakhov V.P. Organizatsionno-ekonomicheskiye mekhanizmy upravleniya razvitiyem sistemy ekspluatatsii regional'nykh samoletov v Arkticheskom regione Rossiyskoy Federatsii //  Zhurnal Akademii Voyennykh Nauk. 2014. T. 4. S. 99-103].
  5. Kuprikov N.M., Zhuravskiy D.M, Ivanov B.V., Pavlov A.K., Malygin D.V. Promising space hardware and software systems for increase of competitiveness of major infrastructure projects in the Arctic and the Far East. Vestnik KGTU named after A.N.Tupolev. 2014;3:120-134. (in Russ). [Kuprikov N.M., Zhuravskiy D.M, Ivanov B.V., Pavlov A.K., Malygin D.V. Perspektivnyye kosmicheskiye apparatno-programmnyye kompleksy dlya povysheniya konkurentosposobnosti krupnykh infrastrukturnykh proyektov v Arkticheskom regione i na Dal'nem Vostoke // Vestnik KGTU im. A.N. Tupoleva. 2014. N 3. S. 120-134 ].
  6. Kuprikov N.M., Pavlov A.K. Intercalibration of the polar geophysical and hydro-meteorological (in Arctic) data in the interest of exploitation of the aviation infrastructure in the Arctic. Abstracts of I All-Russian Scientific Conference with international participation “Innovative Materials and Technologies for the construction in extreme climatic conditions”. Arkhangelsk, 2014. p.184. (in Russ). [Kuprikov N.M., Pavlov A.K. Interkalibratsiya dannykh monitoringa polyarnoy (arkticheskoy) geofizicheskoy i gidrometeorologicheskoy obstanovki v interesakh ekspluatatsii aviatsionnoy infrastruktury v Arktike // Tezisy I Vserossiyskaya nauchno-tekhnicheskaya konferentsiya s mezhdunarodnym uchastiyem “Innovatsionnyye materialy i tekhnologii dlya stroitel'stva v ekstremal'nykh klimaticheskikh usloviyakh”. Arkhangel'sk, 2014. S. 184].
  7. Guidelines for the production of the air reconnaissance of the ice. Leningrad, Gidrometeoizdat, 1981, 580 p. (in Russ). [Rukovodstvo po proizvodstvu ledovoy aviarazvedki. Leningrad: Gidrometeoizdat, 1981. 580 s].
  8. Satellite methods for determining the characteristics of the ice cover of the seas., monograph, ed. V.G. Smirnov. St-Petersburg, AARI, 2011, 246 p. (in Russ). [Sputnikovyye metody opredeleniya kharakteristik ledyanogo pokrova morey: monografiya / pod red. V.G. Smirnova. SPb.: AANII, 2011. 246 s.].