A model of an opportunistic computer network control system

Authors

DOI:

https://doi.org/10.18372/2073-4751.77.18665

Keywords:

mobile network, air knot, opportunistic network, mathematical model, change of states, heterogeneous alternating recovery process

Abstract

The mobile multi-service network is considered – a segment of the information and communication system of control, management, and maintenance of a large air hub. It is shown that under conditions of sudden entry of aircraft into and out of the network coverage area, the latter acquires the properties of an opportunistic network, and sometimes – a network with tolerance to delays and disconnections. It has been established that as a result of a change in the number of active network nodes, the network topology may change and there is a need to change data delivery routes. A model of the processes observed in the opportunistic network is built. As a mathematical basis of the model, a non-homogeneous alternating restoration process is used, which takes into account changes in the transition intervals from one phase state to another. It is proved that with different variants of dominance, the appearance of new mobile nodes or the disappearance of nodes that were part of the network earlier, the asymptotic convergence of the network states changes accordingly.

References

Водоп’янов С. В. Алгоритм ви-бору оптимальної топології комп'ютерної мережі для автоматизованої системи управління повітряним рухом. Проблеми інформатизації та управління. 2012. Т. 3, № 39. С. 35–38.

Opportunistic Networks Mobility Models, Protocols, Security, And Privacy / ed. by K. Ahmad, N. I. Udzir, G. C. Deka. 1st ed. Boca Raton : Chapman and Hall/CRC, 2018. 314 p.

Birrane E. J., Heiner S., McKeever K. Securing Delay-Tolerant Net-works with BPSec. 1st ed. Hoboken : John Wiley & Sons, 2022 – 352 p.

Opportunistic Networks Funda-mentals, Applications and Emerging Trends / ed. by A. Verma et al. 1st ed. Boca Raton : CRC Press, 2021. 318 p.

Advances in Delay-Tolerant Net-works (DTNs): Architecture and Enhanced Performance / ed. by J. J.P.C. Rodrigues. 2nd ed. Oxford : Woodhead Publishing Ltd, 2020. 322 p.

Medhi D., Ramasamy K. Network Routing Algorithms, Protocols, and Archi-tectures. 2nd ed. Amsterdam : Morgan Kaufmann, 2017. 1018 p.

Benslama M., Batatia H., Boucen-na M.L. Ad Hoc Networks Telecommunica-tions and Game Theory. 1st ed. London : ISTE, 2015. 141 p.

Box G. E. P. et al. Time series analysis: forecasting and control. 5th ed. Hoboken : Wiley, 2016. 669 p.

Franken P. et al. Queues and Point Processes. Chichester : Wiley–Blackwell, 1983. 208 p.

Beichelt F. Franken P. Zuver-lässigkeit und Instandhaltung : mathe-matische Methoden. München : Hanser, 1984. 315 s.

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Published

2024-04-01

How to Cite

Tolstikova, O., Vodopianov, S., Andreiev, O., & Kotsiur, A. (2024). A model of an opportunistic computer network control system. Problems of Informatization and Control, 1(77), 104–108. https://doi.org/10.18372/2073-4751.77.18665

Issue

Vol. 1 No. 77 (2024)

Section

Статті

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