Investigation of the Flow-Based Fast Reroute Model with Implementation of a Multimedia Quality Protection Scheme-Reference-Cited by-同舟云学术

Investigation of the Flow-Based Fast Reroute Model with Implementation of a Multimedia Quality Protection Scheme

Published:2021-12-01 Issue:6 Volume:58 Page:46-60
ISSN:2255-8896
Container-title:Latvian Journal of Physics and Technical Sciences
language:en
Short-container-title:

Author:

Lemeshko O.¹,Yevdokymenko M.¹,Yeremenko O.¹,Kunicina N.²,Ziravecka A.²

Affiliation:

1. V.V. Popovskyy Department of Infocommunication Engineering , Kharkiv National University of Radio Electronics , 14 Nauky Ave., Kharkiv, 61166 , Ukraine

2. Riga Technical University , 12/1 Azenes Str., Riga, LV-1048 , Latvia

Abstract

Abstract In this paper, a tensor flow-based fast reroute model with multimedia quality protection is proposed. In the model, the conditions for implementing a multipath routing strategy and flow conservation are introduced taking into account possible packet loss at the network nodes and preventing overloading communication links both when using the primary and backup routes. At the same time, the novelty of the proposed solution is the formalization of the conditions of protection of the Quality of Experience level in terms of multimedia quality along the primary and backup routes. These conditions have been obtained during the tensor formalization of the network, which made it possible to calculate the quality of service indicators: packet loss probabilities, as well as the average end-to-end delay for audio and video flows transmitted in the multimedia session using the primary and backup routes, respectively. As a criterion for the optimality of the obtained solutions, a condition has been selected related to maximizing the overall performance of the infocommunication network. The results of the research of the proposed model confirm the adequacy of the numerical research results obtained for solving the problem of fast rerouting with link/node protection.

Publisher

Walter de Gruyter GmbH

Subject

Psychiatry and Mental health,Neuropsychology and Physiological Psychology

Link

https://www.sciendo.com/pdf/10.2478/lpts-2021-0045

Reference28 articles.

1. 1. Savva, S. (2017). Fault-tolerant routing methodology for Networks-on-Chip. In 27th International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS), (pp. 1–3), 25–27 September 2017, Thessaloniki, Greece. DOI:10.1109/PATMOS.2017.810699310.1109/PATMOS.2017.8106993

2. 2. Ren, Y., Liu, L., Yin, S., Han, J., Wu, Q., & Wei, S. (2013). A Fault Tolerant NoC Architecture Using Quad-Spare Mesh Topology and Dynamic Reconfiguration. Journal of Systems Architecture. Elsevier, 59 (7), 482–491. DOI:10.1016/j. sysarc.2013.03.010

3. 3. Papán, J., Segeč, P., Moravčík, M., Hrabovský, J., Mikuš, Ľ., & Uramova, J. (2017). Existing mechanisms of IP fast reroute. In 15th International Conference on Emerging eLearning Technologies and Applications (ICETA), (pp. 1–7), 26–27 October 2017, Stary Smokovec. DOI:10.1109/ICETA.2017.810251610.1109/ICETA.2017.8102516

4. 4. Seufert, M., & Tran-Gia, P. (2018). Quality of experience and access network traffic management of HTTP adaptive video streaming. In IEEE/IFIP Network Operations and Management Symposium, (pp. 1–8), 23–27 April 2018, Taipei. DOI:10.1109/NOMS.2018.840613610.1109/NOMS.2018.8406136

5. 5. Liotou, E., Tsolkas, D., & Passas, N. (2016). A roadmap on QoE metrics and models. In 23rd International Conference on Telecommunications (ICT), (pp. 1–5), 16–18 May 2016, Thessaloniki, Greece. DOI:10.1109/ICT.2016.750036310.1109/ICT.2016.7500363