DEVELOPMENT OF A MATHEMATICAL MODEL OF THE FUNCTIONING OF ADAPTIVE ROUTING PROTOCOLS IN TELECOMMUNICATION NETWORKS WITH THE POSSIBILITY OF SELF-ORGANIZATION

Keywords: telecommunication network, network bandwidth, efficiency, routing, radio communication, mathematical model

Abstract

The necessity of developing a mathematical model for the functioning of adaptive routing protocols in telecommunication networks with the ability to self-organize has been substantiated. The results of the study of the information transmission route choice in communication networks with the possibility of self-organization under the influence of deliberate interference and cyber-attacks are presented. New analytical dependencies have been obtained that allow calculating the influence of destabilizing factors on the efficiency of determining the route in the network.

Object of research: development of a mathematical model of the functioning of adaptive routing protocols in telecommunication networks with the ability to self-organize.

Investigated problem: taking into account additional destabilizing factors when choosing the information transmission route.

Main scientific results: when forming a route in a special-purpose network with the possibility of self-organization, the following are taken into account: battery charge, information transfer rate, the presence of cyber-attacks, the presence of deliberate interference, the reliability of the route and the time of packet delivery to the addressee. It has been established that the use of all parameters in the system allows to increase both the total operating time of a special-purpose network with the ability to self-organize as a whole, and an individual node. It is shown that the presence of a DoS attack in the network is identified by increasing the delay time for information transmission between network nodes.

Review of the practical use of research results: automated systems for various purposes.

Innovative technologies product: a technology for choosing the information transfer route, which can increase the efficiency of choosing the information transfer route, taking into account additional destabilizing factors.

Review of an innovative technological product: automated control systems, network controllers when choosing a route for information transmission.

Downloads

Download data is not yet available.

References

Kozirackii, Iu. L., Budnikov, S. A., Ostrovskii, D. B. (2011). Model processa vozniknoveniia i protekaniia 1 konflikta informacionnykh sredstv raznykh vidov. Radiotekhnika, 8, 6–11.

Kozirackii, Iu. L., Parinov, M. L., Petrenkov, S. V. (2011). Metodicheskie osnovi formirovaniia modeli konflikta. Telekommunikacii, 4, 2–7.

Nalapko, O., Shyshatskyi, A. (2018). Analysis of technical characteristics of the network with possibility to self-organization. Advanced Information Systems, 2 (4), 78–86. doi: http://doi.org/10.20998/2522-9052.2018.4.14

Shyshatskyi, A. V., Bashkyrov, O. M., Kostyna, O. M. (2015). Rozvytok intehrovanykh system zviazku ta peredachi danykh dlia potreb Zbroinykh Syl. Ozbroiennia ta viiskova tekhnika, 1 (5), 35–40.

Sova, O. Ya. (2015). An intellectual model of the mobile nodes radio connectivity in the MANET. Systems of Arms and Military Equipment, 2 (42), 134–151.

Lemeshko, A. V., Vavenko, T. V. (2012). Usovershenstvovanie potokovoi modeli mnogoputevoi marshrutizacii na osnove balansirovki zagruzki. Problemy telekommunikacii, 1 (6), 12–29.

Sterin, V. L., Vavenko, T. V., Eferov, D. M. (2013). Marshrutizaciia s balansirovkoi nagruzki po dline ocheredi na uzlakh telekommunikacionnoi seti. Vіsnik NTU «KHPІ». Serіia: Novі rіshennia v suchasnikh tekhnologіiakh, 1 (977), 45–49.

Lemeshko, A. V., Kozlova, E. V., Romaniuk, A. A. (2013). Matematycheskaia model otkazoustoichyvoi marshrutyzatsyy, predstavlennaia alhebraycheskym uravnenyiamy sostoianyia mpls-sety. Systemy obrobky informatsii, 2 (109), 217–220.

Marino, P. P. (2013). Optimization of computer networks: modeling and algorithms: a hands-on approach. John Wiley & Sons, Ltd, 15–22.

Mitsuo, G., Cheng, R., Lin, L. (2008). Network Models and Optimization Multiobjective Genetic Algorithm Approach. Springer-Verlag London Limited, 229–289. doi: http://doi.org/10.1007/978-1-84800-181-7

Kuchuk, N., Mohammed, A. S., Shyshatskyi, A., Nalapko, O. (2019). The method of improving the efficiency of routes selection in networks of connection with the possibility of self-organization. International Journal of Advanced Trends in Computer Science and Engineering, 8 (1), 1–6.

Salnyk, S. V., Salnyk, V. V., Sova, O. Y., Stempkovska, Y. O. (2016). A Model of intrusion in mobile radio networks class MANET. Scientific Works of Kharkiv National Air Force University, 1 (46), 79–84.


👁 97
⬇ 88
Published
2020-08-31
How to Cite
Nalapko, O. (2020). DEVELOPMENT OF A MATHEMATICAL MODEL OF THE FUNCTIONING OF ADAPTIVE ROUTING PROTOCOLS IN TELECOMMUNICATION NETWORKS WITH THE POSSIBILITY OF SELF-ORGANIZATION. ScienceRise, (4), 33-39. https://doi.org/10.21303/2313-8416.2020.001388
Section
Innovative technologies in industry