Публікація:
Results of an Experimental Study of the Fault-Tolerant Routing Method with the GLBP Protocol

dc.contributor.authorLemeshko, O.
dc.contributor.authorYeremenko, O.
dc.contributor.authorKruglova, A.
dc.contributor.authorZhuravlyova, A.
dc.contributor.authorLemeshko, V.
dc.contributor.authorPersikov, M.
dc.date.accessioned2022-09-16T09:01:02Z
dc.date.available2022-09-16T09:01:02Z
dc.date.issued2022
dc.description.abstractThis work proposes the results of an experimental study of a fault-tolerant routing method in an infocommunication network. The method implements proactive and reactive protection of the default gateway to provide a high level of network fault tolerance. Therefore, method is based on solving an optimization problem related to calculating primary and backup routes and determining the order of balancing the load incoming to edge routers from access networks. If one of the routers creating the virtual default gateway fails, the method changes the load balancing order between the functional border routers. Causes of failure can include overloading, low equipment reliability, hardware and software router failures, and violation of their network security level (compromise). The method considers the flow-based nature of network traffic, and the optimality criterion of routing solutions under Traffic Engineering is a minimum upper bound of network link utilization. To evaluate the effectiveness of the solutions, they were implemented on Cisco equipment. In the lab experiment, the Gateway Load Balancing Protocol functionality was used. Based on this fault-tolerant routing protocol, it is possible to set weighting coefficients administratively, the value of which affects the order of load balancing on the border routers. During the experiment, the weighting coefficients were adjusted not heuristically but according to the calculations obtained by the studied fault-tolerant routing method. The results of the study confirmed the effectiveness of the proposed solution. Ensuring optimal load balancing between border routers compared to the solution based on multipath routing, but without access layer balancing, improved network performance by 25.45% and reduced the upper bound of network link utilization by an average of 63.77 %. Lowering the utilization upper bound positively affects the quantitative values of the main Quality of Service indicators – the average end-to-end delay, jitter, and packet loss probability.uk_UA
dc.identifier.citationLemeshko O., Yeremenko O., Kruglova A., Zhuravlyova A., Lemeshko V., Persikov M. Results of an Experimental Study of the Fault-Tolerant Routing Method with the GLBP Protocol. IV INTERNATIONAL CONFERENCE ON NATURAL SCIENCES AND TECHNOLOGIES - ICONAT-2022: Conference book, 2022. P. 83.uk_UA
dc.identifier.isbn978-605-73552-2-5
dc.identifier.urihttps://openarchive.nure.ua/handle/document/20945
dc.language.isoenuk_UA
dc.publisherEskişehir Technical Universityuk_UA
dc.subjectNetwork resilience, fault-tolerant routinguk_UA
dc.subjectnetwork, routing, fault-tolerance, method, experimentuk_UA
dc.titleResults of an Experimental Study of the Fault-Tolerant Routing Method with the GLBP Protocoluk_UA
dc.typeConference proceedingsuk_UA
dspace.entity.typePublication

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