Geodesic
Mathematical discrete-time model of the heterogeneous integrated system of corporate information management
Žurnal Sibirskogo federalʹnogo universiteta. Matematika i fizika, Tome 12 (2019) no. 5, pp. 560-570.

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The article considers some problems and peculiarities of the modelling and rational design of heterogeneous traffic servicing integrated systems. The aim of this paper is to develop the apparatus of modelling for distributed systems with a heterogeneous medium as part of a subsystem of managing the modelling and upgrading of the systems in question. The research subject is a system consisting of air and cable multiple-access systems. Protocol functions of every level are represented by a double-phase stochastic system within discrete time. Results of numerical experiments which were obtained in areas of high loads and over-loads allow us to determine possibilities for further prospective expansion of the system and to develop guidelines as to permissible values of system parameters for systems that are functioning in different modes. The obtained results can be used for the reconfiguration of both static and dynamic heterogeneous (according to the transmission medium) information systems.
Keywords: heterogeneous medium, communication system, mathematical model, optimal design. 
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Oleg Ja. Kravets. Mathematical discrete-time model of the heterogeneous integrated system of corporate information management. Žurnal Sibirskogo federalʹnogo universiteta. Matematika i fizika, Tome 12 (2019) no. 5, pp. 560-570. http://geodesic.mathdoc.fr/item/JSFU_2019_12_5_a3/

[1] O. Ja. Kravets, O.N. Choporov, “The problems and peculiarities of modelling integrated systems of heterogeneous traffic services”, J. Sib. Fed. Univ.. Math. Phys., 11:5 (2018), 581–587 | DOI | MR

[2] Q-Y. Han, J. Li, “A semantic integration mode for heterogeneous system”, IEEE Computer Design and Applications (ICCDA), 2010 | DOI

[3] O. Ja. Kravets, “Mathematical Modeling of Parameterized TCP Protocol”, Automation and Remote Control, 74:7 (2013), 1218–1224 | DOI | MR | Zbl

[4] G.S. Mudholkar, Y.P. Chaubey, “On the Distribution of Fisher'S Transformation of the Correlation Coefficient”, Communication in Statistics – Simulation and Computation, 5:4 (1976), 163–172 | DOI

[5] D.C. Rao, “Joint Distribution of z Transformations Estimated from the Same Sample”, Hum Hered, 29 (1979), 334–336 | DOI | MR

[6] P.T. Artikis, “Discrete stochastic models and global information risk treatment operations in strategic processes”, Journal of Discrete Mathematical Sciences and Cryptography, 20:2 (2017), 477–491 | DOI | MR

[7] F.V. Louveaux, “Discrete stochastic location models”, Ann Oper Res., 6 (1986), 21 | DOI

[8] B. Filipowicz, J. Kwiecien, “Queuing systems and networks. Models and applications”, Bulletin of the Polish Academy of Sciences. Technical Sciences, 56:4 (2008), 379–390

[9] Y. Takaki, M. Ando, K. Maesako et al., “Efficient and reliable packet transfer protocol for wireless multihop bidirectional communications”, International Journal of Distributed Sensor Networks, 14:1 (2018) | DOI

[10] P. Sethi, “Internet of Things: Architectures, Protocols, and Applications”, Journal of Electrical and Computer Engineering, 2017, 9324035 | DOI

[11] F. Usta, Z. Eren, H. Kurtaran, “Crashworthiness Optimization of Nested and Concentric Circular Tubes Using Response Surface Methodology and Genetic Algorithm”, Latin American Journal of Solids and Structures, 15:5 (2018) | DOI

[12] J.G. Brookshear, D.T. Smith, D. Brylow, Computer science: an overview, Addison-Wesley, 2012

[13] I. Atanasov, “Modeling Aspects of Autonomous Smart Metering Information System”, International Journal on Information Technologies and Security, 8:1 (2016), 3–18