Method of adaptive space-time synthesis of data-centric ads structure
DOI:
https://doi.org/10.34169/2414-0651.2021.2(30).73-85Keywords:
SAM, metamorphism, system of systems, theory of data-centric operations, space-time synthesis, theory of categories, polydimensional analysisAbstract
This article discusses the space-time synthesis of the data-centric ADS structure during the conduct of antiaircraft warfare on a real-time scale. The article analyzes the peculiarities of building of the general architecture of data center system of systems (SoS), the differentiation of the physical and cybernetic space of SoS. The architecture of data-centric ADS construction provides for division of the physical space of ADS existence into the level of basic system elements, the level of users and the physical level of system-system links (physical topology). The cybernetic space includes the logical level of the measure (logical topology), the applied level of the systemsystems services and the operational level of the SoS. It is concluded that at the application level of the SoS services, a mechanism of access to capabilities is created, which is realized through the use of three types of services. The first type of service is based on the use of serveroriented architecture (SOA) and is implemented on a logical topology level. The second type of services can be regarded as a set of interconnected functions, which are implemented on the physical level of data-centric SoS. The third type of service is based on IoBT (Internet of Battlefield Things) architecture. Thus, the structural and functional links of data-centric SoS are defi ned at the system of systems level, which in turn defi nes the possible actions of DSoS within the framework of data-centric operation (operational level).
The article contains: the ADS structure formation general scheme; the general structural scheme of the method of synthesis of the complex model of functioning of the ADS facilities in the composition of the ADS guidance loop; the system decomposition peration scheme; the scheme of the synthesis operation of the guidance loop structure using the Cartesian square morphism. Using the olydial analysis, the space-hour synthesis limits of the data-centric ADS structure for the possible degradation of the physical topology are evaluated.
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Skoryk, A. (2020), “Metodolohichni osnovy stvorennia arkhitektury data-tsentrychnoi ekosystemy ZRS”. [Methodological fundamentals of creating the ADS data-centric ecosystem architecture], Scientifi c Works of Kharkiv Nat. Air Force Univ. No 1(67). Pp. 119—133. https://doi.org/10.30748/nitps.2021.67.16.
Skoryk, A. & Yarosh, S. (2020), “Evoliutsiinyi rozvytok kontseptsii merezhevo-tsentrychnykh viin, systemnokontseptualni osnovy teorii data-tsentrychnykh operatsii” [Evolutionary development of the concept of network-centric wars, system-conceptual bases of the theory of data-centric operations], Scientifi c Works of Kharkiv Nat. Air Force Univ. No. 4(66). Pp. 26—34. https://doi.org/10.30748/zhups.2020.66.03. DOI: https://doi.org/10.30748/zhups.2020.66.03
Skoryk, A., Yarosh, S. & Melenti, D. (2020), “Vplyv ruinivnykh tekhnolohii na rozvytok arkhitektury S4ISR system. Kontseptualni osnovy pobudovy arkhitektury data-tsentrychnoi systemy-system” [Impact of disruptive technologies on the development of C4ISR systems. Conceptual framework of data-centric system of systems architecture], Systems of Arms and Military Equipment. No. 4(64). Pp. 107—119. https://doi.org/10.30748/soivt.2020.64.14. DOI: https://doi.org/10.30748/soivt.2020.64.14
Skoryk, A. (2020), “Data-tsentrychna operatsiia, pryntsypy systemo-systemnoho myslennia i kontseptsiia stvorennia arkhitekturnoho freimvorku zenitnykh raketnykh system AFADS” [Date-centric operation, principles of system of system thinking and the concept of development an architectural framework air defense system AFADS], Information Processing Systems. No.4(163). Pр. 77—86. https://doi.org/10.30748/soi.2020.163.08. DOI: https://doi.org/10.30748/soi.2020.163.08
Meredith, H. (2014). An Analysis of SE and MBSE Concepts to Support Defence Capability Acquisition. Edinburgh South Australia 5111. Australia. September, 2014. 260 p.
Scott, K. (2018). Cyberspace Operations. United States. Joint Chiefs of Staff. Joint Publication. 8 June. 2018. № 3–12. Р. 104.
Abusharekh, A. & Levis, A. (2016). Performance Evaluation Of SOA In Clouds. 30th European Conf. on Modelling and Simulation. Regensburg Germany. May 31st – June 3rd. https://doi.org/10.7148/2016-0614. DOI: https://doi.org/10.7148/2016-0614
Russell, S. & Abdelzaher, T. (2018). The Internet of Battlefi eld Things: The Next Generation of Command, Control, Communications and Intelligence (C3I) Decision-Making. IEEE Military Communications Conf. (MILCOM 2018). https://doi.org/10.1109/milcom.2018.8599853. DOI: https://doi.org/10.1109/MILCOM.2018.8599853
Tonin, M. The internet of things: promises and perils of a disruptive technology. Report, NATO Parliamentary Assembly. Science and technology committee. October, 2017.
Turіnskyi, O.V. & Skoryk, A.B. (2019). Design method of surface-to-air missiles using the object-oriented approach and electronic launch technology. Science and Technology of the Air Force of Ukraine. № 2(35). Pp. 133—142. https://doi.org/10.30748/nitps.2019.35.17. DOI: https://doi.org/10.30748/nitps.2019.35.17
Doska, O. & Skoryk, A. (2011), “Strukturnofunktsionalne opysannia ZRS z vykorystanniam matematychnoho aparatu polikhromatychnykh mnozhyn”. [Structural-functional description of SAMS with use the mathematical vehicle of polychromatic ensembles]. Systems of Arms and Military Equipment. № 2(26). Pp. 117—121.
Smirnov, Y., Tkachenko, V., Ruban I., Malyuha, V. & Trystan, A. (2018), “Teoretychni osnovy pobudovy ta zastosuvannia rozviduvalno-upravliaiuchykh informatsiinykh system protypovitrianoi oborony: monohrafi ia”. [Theoretical bases of construction and application of reconnaissance and control information systems of air defense: monograph], FOP Panov A.M. Kharkiv. 162 p.
Bortnovskyi, S.A., Zvieriev, O.O., Zhyvotovskyi, R.M. & Bazilo, S.M. (2020), “Rozrobka pryntsypiv spriazhennia riznotypnykh system telecodovogo zvіazku zenitnoho raketnoho ozbroiennia z metoiu pobudovy suchasnykh merezhecentrychnykh sistem boyovogo upravlinnia” [Development of principles for pairing between different telecode communication systems of anti–airсraft missile armament with the purpose of construction of modern network-centric combat control systems], Weapons and Military EQUIPMENT. No 3(27). Pp. 56–63.
Bortnovskyi, S.A., Zvieriev, O.O., Zhyvotovskyi, R.M., Petruk, S.M. & Ramshov, D.V. (2020), “Obgruntuvannia tekhnichnykh propozytsіi schodo spriazhennia suchacnykh PEOM zi specializovannymy obchyslyuvalnymy zasobamy zenitnoho raketnoho ozbroiennia z metoiu modernizatsii ta pidvyschennia obchysliuvalnogo resursu” [Development and justifi cation of technical proposals for the introduction of modern personal computers in the composition of standard specialized computer means of complexes of automation of communication companies of windows and windows their general computer resource], Weapons and Military Equipment. No 4(28). Pp. 48–56.
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