Geodesic
QoS based routing of information flows in telecommunication networks
Problemy fiziki, matematiki i tehniki, no. 2 (2016), pp. 90-96.

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Вasic concepts as internetwork and interdomain routing are presented. The developed models and methods of QoS based routing are shown. Based on the analysis of the advantages and disadvantages of the different methods the main trends in the development of QoS based routing are revealed.
Keywords: QoS based routing, bandwidth, network resources. 
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N. I. Listopad; S. Yu. Mikhnevich; A. A. Hayder. QoS based routing of information flows in telecommunication networks. Problemy fiziki, matematiki i tehniki, no. 2 (2016), pp. 90-96. http://geodesic.mathdoc.fr/item/PFMT_2016_2_a13/

[1] O. Yu. Evseeva, S. V. Garkusha, “Obzor tekhnologicheskikh i teoreticheskikh reshenii v oblasti marshrutizatsii na osnove kachestva obsluzhivaniya”, Problemy telekommunikatsii, 2012, no. 3(8), 24–46 | MR

[2] H. J. Chao, Guo Xiaolei, Quality of service control in high-speed networks, Wiley-IEEE, 2002, 432 pp.

[3] I. Rudenko, Tsunami Computing, Marshrutizatory CISCO dlya IP-setei, Kudits-Obraz, M., 2003, 656 pp.

[4] M. Deepankar, K. Ramasamy, Network routing: algorithms, protocols, and architectures, Morgan Kaufmann Publishers, 2007, 788 pp.

[5] H. A. Mantar, I. T. Okumus, J. Hwang et al., “A scalable intra-domain resource management architecture for DiffServ networks”, Journal of High Speed Networks, 15 (2006), 185–205

[6] Rukovodstvo po tekhnologiyam ob'edinennykh setei, per. s angl., 4-e izd., Izd. dom «Vilyams», M., 2005, 1040 pp.

[7] H. A. Mantar, J. Hwang, S. J. Chapin et al., “A Scalable And Efficient Inter-Domain QoS Routing Architecture For Diffserv Networks”, IFIP/IEEE Eighth International Symposium on Integrated Network Management, Proceedings of the symposium (24–28 March 2003), 463–467

[8] N. I. Listopad, Yu. I. Vorotnitskii, A. A. Khaider, “Optimalnaya marshrutizatsiya v multiservisnykh setyakh telekommunikatsii na osnove modifitsirovannogo algoritma Deikstry”, Vestnik BGU. Seriya 1, 2015, no. 1, 70–76

[9] S. Chen, K. Nahrstedt, “An overview of quality-of-service routing for the next generation high-speed networks: problems and solutions”, IEEE Network Magazine, 12 (1998), 64–79 | DOI

[10] N. I. Listopad, A. Matruk Al Dallaen, A. G. Kopachev, “Modeli obespecheniya zhivuchesti kompyuternykh setei pri optimalnoi marshrutizatsii informatsionnykh potokov”, Informatika, 2006, no. 4, 39–48

[11] A. Riedl, A. Dominic, “Schupke Routing Optimization in IP Networks Utilizing Additive and Concave Link Metrics”, IEEE/ACM Transactions on Networking, 15:5 (2007), 1136–1148 | DOI

[12] Yo. Seok, Yo. Lee, Ya Choi, “Dynamic constrained multipath routing for MPLS networks”, IEEE International Conference on Computer Communications and Networks, 2:1 (2001), 348–353

[13] N. I. Listopad, I. O. Velichkevich, “Optimalnaya marshrutizatsiya informatsionnykh potokov s uchetom parametrov QoS”, Doklady BGUIR, 2012, no. 4(66), 111–116 | MR