Eng During last 365 days Approved articles: 1897,   Articles in work: 308 Declined articles: 794 
Library
Articles and journals | Tariffs | Payments | Your profile

Back to contents

Perspective Directions of Development of Military Robotic Systems
Chirov Denis Sergeevich

Doctor of Technical Science

Deputy Head of the Research and Development Centre of the Main Robotics Research and Test Centre of the Ministry of Defence of the Russian Federation

141411, Russia, Moscow, ul. Sinyavinskaya, 11

den-chirov@yandex.ru

 

 
Novak Konstantin Viktorovich

senior research engineer at Main Robotics Research and Test Center

119160, Russia, g. Moscow, ul. Profsoyuznaya, 84/32

konstantin-novak@yandex.ru

Abstract.

The article considers the questions regarding the status and improvement of military robotic systems on the basis of the analysis of the existing nomenclature of robotic systems in foreign countries. The authors of the article provide a brief overview of existing types of robotic systems for special purposes, and describe their characteristic features and major problems. They demonstrate that at the moment special purpose robotic systems solve a limited number of tactical tasks, however, not significantly affecting the forms and methods of armed struggle. At the same time, being formed over the past decade in fundamental and technological areas of science, these capacities allow to speak about readiness for transition to a fundamentally new level, robotization of the armed forces. The research involved statistical analysis of more than 700 samples of robotic systems designated for special purposes. The result of the research identified the main directions of research on the development of special purpose robotic systems: improving resource and intellectual autonomy; construction modularity and reconfiguration; design and technological standardization samples and their key functional components; noise immunity and secrecy of communication systems and management.

Keywords: unmanned aerial vehicle, intelligent systems, directions of development, autonomy, military-technical level, robotics, weapons, unmanned underwater vehicle, unmanned boat, statistics

DOI:

10.25136/2409-7543.2018.2.22737

Article was received:

19-04-2017


Review date:

23-04-2017


Publish date:

26-04-2018


This article written in Russian. You can find full text of article in Russian here .

References
1.
Khripunov S.P., Blagodaryashchev I.V., Chirov D.S. Voennaya robototekhnika: sovremennye trendy i vektory razvitiya // Trendy i upravlenie. 2015. 4. S. 410-422.
2.
Burenok V.M., Leonov A.V., Pronin A.Yu. Voenno-ekonomicheskie i innovatsionnye aspekty integratsii netraditsionnykh vidov oruzhiya v sostav sistemy vooruzheniya. M.: Izdatel'skaya gruppa Granitsa, 2014. 240 s.
3.
Kalyaev I.A., Rubtsov I.V. Boevym robotam nuzhna programma // Natsional'naya oborona. 2012. 8 (77). C. 34-48.
4.
Rubtsov I.V. Voprosy sostoyaniya i perspektivy razvitiya otechestvennoi nazemnoi robototekhniki voennogo i spetsial'nogo naznacheniya // Izvestiya Yuzhnogo federal'nogo universiteta. Tekhnicheskie nauki. 2013. 3 (140). S. 14-21.
5.
Analiticheskoe issledovanie: Mirovoi rynok robototekhniki. M.: NAURR, 2016. 157 s.
6.
Ekspertno-analiticheskii otchet. Potentsial rossiiskikh innovatsii na rynke sistem avtomatizatsii i robototekhniki. M.: RVK, 2014. 128 s.
7.
Nakano E. Vvedenie v robototekhniku. M.: Mir. 1988 334 s.
8.
Donchenko A.A., Chirov D.S. Obosnovanie trebovanii k sisteme svyazi bespilotnykh letatel'nykh apparatov srednei i bol'shoi dal'nosti // T-Comm Telekommunikatsii i Transport. 2015. 12 (9). S.12-16.
9.
Serdyuk P., Slyusar V. Sredstva svyazi s nazemnymi robotizirovannymi sistemami. Sovremennoe sostoyanie i perspektivy // Elektronika. Nauka, tekhnologiya, biznes. 2014. 7 (00139). S. 66-74.
10.
Rogozin D.O. Voina i mir v terminakh i opredeleniyakh. M.: Izdatel'skii dom Porog. 2004. 625 s.
11.
Voennyi entsiklopedicheskii slovar'. M.: Voennoe izdatel'stvo, 1984. 863 s.
12.
Army Equipment Modernization Plan / US Army G-8, 2014. 88 p.
13.
Army Equipment Program in support of Presidents Budget 2016 / US Army G-8, 2015. 56 p.
14.
Robotics on the Battlefield. Part I: Range, Persistence and Daring / CNAS, 2014. 68 p.
15.
Chirov D.S., Khripunov S.P. Intellektual'nye metody raspoznavaniya takticheskikh situatsii v usloviyakh avtonomnogo primeneniya robototekhnicheskikh kompleksov voennogo naznacheniya // Voprosy bezopasnosti. 2017. 1. S.22-34. DOI: 10.7256/2409-7543.2017.1.21643.
16.
Sheremet I.B., Rudianov N.A., Ryabov A.V., Khrushchev V.S., Komchenkov V.I. Obosnovanie semeistva boevykh i obespechivayushchikh robotov dlya boya v gorode // Izvestiya Yuzhnogo federal'nogo universiteta. Tekhnicheskie nauki. 2012. 3(128). S.37-41.