Justification of technical proposals for the conjugation of modern personal computers with specialized computer means of anti-aircraft missile weapons in order to modernize and increase the computing
DOI:
https://doi.org/10.34169/2414-0651.2020.4(28).48-56Keywords:
telecom, data transmission, digital information, discrete communication channel, interface device, set of tools for automating command post control, automated command post, personal computer machineAbstract
The experience of recent decades of hostilities and local confl icts has revealed a number of imperfections in existing anti-aircraft missile systems and systems. One of the ways to increase the operational effectiveness of anti-aircraft missile systems and systems is to introduce modern systems of control automation. In this article the authors developed the principles and techniques for interfacing different types of systems (instrumentation) tele-communication of automated command posts of anti-aircraft missile troops with a view to building up modern grid-centric systems for combat control of anti-aircraft missile weapons. In the course of the said study, the authors used the basic provisions of the theory of transmission of discrete messages, the theory of control and general scientific methods of analysis and synthesis. Consideration is being given to the feasibility of interfacing different types of telecommunications systems with data transmission equipment in command control automation systems of existing anti-aircraft missile weapons at based on the development of a special logic and information interface based on modern personal electronic computing machine for the purpose of providing conditions for the creation of a single information and telecommunications base for a system of combat control of air defense forces and means using gridcentric technology. The justified principle of interface and universal technical means of harmonization of information exchange of modern personal computing machines with the usual typical interface «Common bus» have been developed from the personnel of the digital computing and digital information exchange control devices of the command posts of the anti-aircraft missile systems and systems
Downloads
References
Nikolaev, I.M. (2016), “Naukovo-metodychne zabezpechennia doslidzhen z obgruntuvannia perspektyv rozvytku zenitnoho raketnoho ozbroennia” [Scientifi c and methodological support of research to substantiate the prospects for the development of antiaircraft missile armament], Science and Technology of the Air Force of Ukraine, No. 2(23), pp. 120–122.
Galushko, Yu.I. & Yarosh, S.P. (2009), “Analiz osnovnykh napryamkiv rozvytku zenitnykh raketnykh viisk z pozytsii teorii upravlinnia vohnem” [Analysis of the main directions of development of anti-aircraft missile troops from the standpoint of the theory of fi re control], Navigation and communication control systems, Iss. 3(11), pp. 169–172.
Karpenko, D.V. (2017), “Stan ta perspektyvy rozvytku zenitnoho raketnoho ozbroennia Povitrianykh Syl Zbroynykh Syl Ukrainy” [Condition and prospects of development of anti-aircraft missile armament of the Air Force of the Armed Forces of Ukraine], Science and Technology of the Air Force of Ukraine, No. 2(27), pp. 75–78. https://doi.org/10.30748/nitps.2017.27.14. DOI: https://doi.org/10.30748/nitps.2017.27.14
Pavlenko, M.A., Smelyakov, S.V., Rudenko, V.N. & Khmelevskii, S.I. (2016), “Napravleniia razvitiia interfeysov vzaimodeistviia v avtomatizirovannykh sistemakh upravleniia spetsialnogo naznacheniia”, [Directions for the development of interaction interfaces in automated control systems for special purposes], Information Processing Systems, No. 9(146), pp. 51–54.
Shamko, V.E., Zharik, O.M. & Koval, V.V. (2017), “Osnovni osoblyvosti zastosuvannia Povitrianykh Syl v suchasnykh umovakh vedennia zbroynoi borotby” [The main features of the use of the Air Force in modern conditions of armed struggle], Science and Technology of the Air Force of Ukraine, No. 2, pp. 15–18. https://doi.org/10.30748/nitps.2017.27.02. DOI: https://doi.org/10.30748/nitps.2017.27.02
Klimovich, O.K. (2015), “Zastosuvannia suchasnykh system i kompleksiv zviazku ta avtomatyzatsii dlia potreb Zbroynykh Syl Ukrainy pid chas antyterorystychnoi operatsii” [Application of modern systems and complexes of communication and automation for the needs of the Armed Forces of Ukraine during the anti-terrorist operation], Information processing systems, No. 5(130), pp. 135–140.
Nizienko, B.I., Yukhnovsky, S.A. & Makarov, S.A. (2017), “Aspekty udoskonalennia systemy upravlinnia protypovitryanoi oborony Ukrainy” [Aspects of improving the air defense control system of Ukraine], Science and Technology of the Air Force of Ukraine, No. 1, pp. 17–20. https://doi.org/10.30748/nitps.2017.26.03. DOI: https://doi.org/10.30748/nitps.2017.26.03
Bortnovsky, S.A., Gavrentyuk, O.V., Vodolaga, O.S. & Bratsilo, P.V. (2015), “Rozrobka ta obgruntuvannia tehnichnih propozitsii shodo pidvishennia obchisliuvalnogo resursu shtatnyh obchisliuvalnikh sistem ozbroennia ta viiskovoi tehniki zenitnih raketnykh viisk na pidstavi zastosuvannia suchasnykh EOM” [Developing and substantiation of technical proposals to increase the computing resource of regular computer systems of armament and military equipment of anti-aircraft missile forces on the basis of the use of modern computers], Science and Technology of the Air Force of Ukraine, No. 4(21), pp. 62–64.
Kravchik, R.S., Dudush A.S., Omelchenko Ye.O., Bortnovsky, S.A. & Chorny, A.A. (2017), “Rozrobka tehnichnyh propozitsii shodo realizatsii aparaturnykh zasobiv spriazhennia selektornykh ta multipleksornykh kanaliv obminu tsyfrovykh obchisliuvalnykh mashin spetsialnogo pryznachennia z suchasnoi PEOM pry yii vprovadzhenni ta zastosuvanni u skladi zenitnogo raketnogo ozbroennia” [Developing of technical proposals for the implementation of hardware for coupling selector and multiplexer channels for the exchange of digital computers for special purposes with modern PCs in its implementation and application as part of anti-aircraft missile armament], Scientifi c Works of Kharkiv National Air Force University, No. 5(54), pp. 93–96.
Product 9S483M1 (1980), “Tekhnicheskoe opisanie. Kanalnyi i programmnyi obmen spetsializirovannoi EVM 9S483M1 s abonentami” [Technical description. Channel and program exchange of a specialized computer 9S483M1 with subscribers], Voiennoie izdvo, M., 278 p.
Product 5E265 (1984), “Formulyar. Tehnicheskie harakteristiki i princip postroeniia tsifrovogo vychislitelnogo kompleksa 5E265” [Logbook. Technical characteristics and principle of construction of a digital computing complex 5E265], Voiennoie izd-vo, M., 74 p.
Product А-15 (А-15А) (1981), “Rukovodstvo po tehnicheskoi ekspluatatsii” [Technical Operation Manual], Voiennoie izd-vo, M., 132 p.
Matvienko, M.P. (2012), “Kompiuterna shemotehnika” [Computer circuit layout], TOV Centr navchalnoi literatury, K. 190 p.
Settarov, I.K. (2004), “Principy postroeniia i raboty personalnyh vychislitelnyh mashin” [Principles of construction and operation of personal computers], Energoatom, M. 293 р.
Sterheim, D., Sing, K. & Trivedi, M. (2011)“Proektuvannia sistem na mikroshemah programovanoi logiki” [Design of systems on chips of programmable logic], TOO Suchasna nauka, K. 213 p.
Downloads
Published
How to Cite
Issue
Section
