Method of ensuring the reliability of connecting nodes to the information and communication system of the enterprise based on 5G
Main Article Content
Abstract
The object of research is the process of building a cloud information and communication system for automation of production processes. The subject of the research is the method of ensuring the reliability of connection of nodes to the information and communication system of the enterprise on the basis of 5G. The purpose of this work is to increase the reliability of connecting nodes to the information and communication system of the enterprise based on 5G. to optimize production processes. As a result of the research, the concepts characterizing the reliability of distributed 5G information and communication networks were considered. The synthesis of functionally stable structure of the distributed information and communication network of 5G of the enterprise was formalized. The method of planning of 5G network for automation of production processes of the enterprise was developed. on the way of distribution taking into account restrictions on the minimum throughput, number of connections and reliability and construction of a communication transport segment with definition of an optimum location of cross premises. Conclusions. The developed method allows planning the optimal structure of the 5G cellular network to optimize production processes, evaluate and reduce the total cost of building the network, while providing the necessary indicators of service quality of network nodes and its reliability.
Article Details
References
Smirnova, T.V., Solovykh, Je.K., Smirnov, O.A. & Drjejev, O.M. (2019), “Pobudova khmarnykh informacijnykh tekhnologhij optymizaciji tekhnologhichnogho procesu vidnovlennja ta zmicnennja poverkhonj detalej [Construction of cloud information technologies to optimize the technological process of restoration and strengthening of surface surfaces]”, Centraljnoukrajinsjkyj naukovyj visnyk. Tekhnichni nauky, No. 1(32), pp. 184-194.
Smirnova, T.V., Smirnov, S.A., Mynajlenko, R.M., Dorensjkyj, O.P. & Sysojenko, S.V. (2020), “Khmarna avtomatyzovana systema intelektualjnoji pidtrymky pryjnjattja rishenj dlja tekhnologhichnykh procesiv». [Cloud automated system of intelligent decision support for technological processes]”, Visnyk Cherkasjkogho derzhavnogho tekhnologhichnogho universytetu. Tekhnichni nauky. No, 4, pp. 84-92.
Smirnova, T.V., Stoljarenko, M.P., Jankov, M.O., Ghrudik, V.V., Motorin & Ju.Ju (2021), “Modelj realizaciji struktury tekhnologhichnogho procesu u khmarnomu servisi». [Model of realization of structure of technological process in cloud service]”, Zbirnyk naukovykh pracj Kharkivsjkogho nacionaljnogho universytetu Povitrjanykh Syl, No. 4(70), pp. 132-142.
Davydov A.V., Kuklin V.V. & Khaidarov K.A. (2021), Methods for evaluating the effectiveness of information networks, available at: http://bourabai.ru/telecom/nets21.htm
(2022), AN1200.22 LoRa™ Modulation Basics, 2015 Semtech Corporation.
(2015), LoRaWAN™ Specification, N.Sornin (Semtech), M.Luis (Semtech), T.Eirich (IBM), T.Kramp (IBM), O.Hersent (Actility), V1.0, 2015 January.
Standards (2011), IEEE 802.15.4-2011 – IEEE Standard for Local and metropolitan area networks--Part 15.4: Low-Rate Wireless Personal Area Networks (LR-WPANs), DOI: https://doi.org/10.1109/IEEESTD.2011.6012487
(2022), IEEE 802.15 WPAN™ Task Group 4zEnhanced Impulse Radio, available at:
https://www.ieee802.org/15/pub/TG4z.html
Ram Krishan (2019), “Wi-Fi 6 Technology-A Review”, International Journal of Modern Electronics and Communication Engineering (IJMECE), Vol. 7, Issue 4, July 2019, pp. 11-13.
(2022), Intel Communities, available at: https://www.intel.ru/content/www/ru/ru/gaming/resources/wifi-6.html
ITU (2020), ITU towards “IMT for 2020 and beyond” – IMT-2020 standards for 5G, available at: https://www.itu.int/en/ITU-R/study-groups/rsg5/rwp5d/imt-2020/Pages/default.aspx
Cisco public (2021), Reimagining the End-to-End Mobile Network in the 5G Era, White paper, available at:
Stelmakh, S. (2022), How to configure an edge data center, available at:
https://www.itweek.ru/iot/article/detail.php?ID = 216820
Khoroshevskyj, V.Gh. (1987), Ynzhenernыj analyz funkcyonyrovanyja vиchyslyteljnkh mashyn y system [Engineering analysis of the operation of computers and systems], Radyo y svjaz, Moscow, 156 p.
Barabash, O.V. &Mashkov, O.A. (2004), “Vyznachennja kryterijiv i zapasu funkcionaljnoji stijkosti rozpodilenoji informacijnoji systemy [Determining the criteria and margin of functional stability of a distributed information system]”, Aktualjni problemy stvorennja i zastosuvannja aviacijnykh ta kosmichnykh system: Zbirnyk naukovykh pracj NAOU, NAOU, Kyiv, pp. 62 – 65.
Barabash, O.V. (2004), “Zabezpechennja funkcionaljnoji stijkosti rozpodilenoji informacijnoji kosmichnoji systemy [Ensuring the functional stability of a distributed space information system]”, Systemy obrobky informaciji, Is. 1, KhVU, Kharkiv, pp. 3 – 12.
Fylyn, B.P. (1988), Metody analyza strukturnoj nadezhnosty setej svjazy [Methods of analysis of structural reliability of communication networks], Radyo y svjaz, Moscow, 204 p.