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IEEE 802.1 Time-Sensitive Networking Standardının Yazılım Tanımlı Ağ Yaklaşımıyla Değerlendirilmesi

Year 2020, Ejosat Special Issue 2020 (ARACONF), 325 - 331, 01.04.2020
https://doi.org/10.31590/ejosat.araconf42

Abstract

Endüstriyel otomasyon sistemleri, havacılık, ulaşım, sağlık ve askeri alanda kullanılan zaman kritik sistemler sıfır paket kaybı, sınırlı gecikme ve gecikmede sapma gibi gerçek zaman gereksinimlerine sahiptir. Zaman içinde bu tarz sistemlere özgü yüksek maliyetli donanımlar üzerinde koşan protokoller geliştirilmiştir. Malzeme teknolojisindeki ilerlemeler ile birlikte Ethernet ucuz donanımlar üzerinde çalışan ve her yerde bulunabilen bir hale geldi fakat gerçek zamanlı haberleşme gereksinimlerini karşılayabilecek mekanizmalara sahip değildi. IEEE 802.1 Time-Sensitive Networking (TSN), birkaç protokolden oluşan Ethernet bazlı gerçek zamanlı haberleşme sağlayan bir standarttır. Yazılım tanımlı ağlar (YTA) ise yönetilebilirlik, dinamizm ve maliyet açısından etkinlik sağlayan yeni bir mimaridir. Bu bildiride, TSN standardının yönlendirme mekanizmasına katkı sağlanmış ve TSN protokolleri YTA yaklaşımıyla gerçekleştirilip sonuçları incelenmiştir.

References

  • Time-Sensitive Networking (TSN) Task Group. Erişim adresi https://1.ieee802.org/tsn/
  • Bello, L. ve Steiner W. (2019). A Perspective on IEEE Time-Sensitive Networking for Industrial Communication and Automation Systems. Proceedings of the IEEE, 1-27.
  • Ojewale, M ve Yomsi, P. (2020). Routing heuristics for load-balanced transmission in TSN-based networks. ACM SIGBED Review
  • Heise, P., Geyer, F., Obermaisser, F. (2015). Deterministic OpenFlow: Performance Evaluation of SDN Hardware for Avionic Networks. 11th International Conference on Network and Service Management
  • Cevher, S., Mumcu, A., Caglan, A., Kurt, E., Peker, M., Hokelek, I., Altun, S. (2018). A Fault Tolerant Software Defined Networking Architecture for Integrated Modular Avionics. 2018 IEEE/AIAA 37th Digital Avionics Systems Conference (DASC)
  • Deterministic Networking (DetNet). Erişim adresi https://datatracker.ietf.org/wg/detnet/about/
  • Kumar, R., Monowar, H., Padhy, S., Evchenko, K., Piramanayagam, L., Mohan, S., Bobba R. (2017). End-to-End Network Delay Guarantees for Real-Time Systems using SDN 2017 IEEE Real-Time Systems Symposium (RTSS)
  • Mininet. Erişim adresi http://mininet.org
  • POX Wiki. Erişim adresi https://noxrepo.github.io/pox-doc/html/
  • Eppstein, D. (1994). Finding the k Shortest Paths. Department of Information and Computer Science University of California Tech. Report 26-94

Evaluating Software-Defined Networking Approach Over IEEE 802.1 Time-Sensitive Networking Standard

Year 2020, Ejosat Special Issue 2020 (ARACONF), 325 - 331, 01.04.2020
https://doi.org/10.31590/ejosat.araconf42

Abstract

Time-critical systems like the ones used in industrial automation systems, aviation, transportation, in-vehicle, healthcare and military systems demand zero packet loss and real-time guarantees such as bounded latency and jitter from the underlying communication network. For those systems, different communication protocols have been enhanced and evolved. However, each protocol requires specific hardware ending up with increasing costs. Ethernet is cheap and ubiquitous, but it was designed to provide best effort communication and lacks mechanisms to meet real-time constraints. IEEE 802.1 Time-Sensitive Networking (TSN) is a set of protocols providing real-time Ethernet-based communication. Software-Defined Networking (SDN) is an emerging architecture which provides manageability, dynamism and cost-effectiveness. This paper makes contribution to forwarding mechanism of TSN and shows the results of applying TSN with SDN approach.

References

  • Time-Sensitive Networking (TSN) Task Group. Erişim adresi https://1.ieee802.org/tsn/
  • Bello, L. ve Steiner W. (2019). A Perspective on IEEE Time-Sensitive Networking for Industrial Communication and Automation Systems. Proceedings of the IEEE, 1-27.
  • Ojewale, M ve Yomsi, P. (2020). Routing heuristics for load-balanced transmission in TSN-based networks. ACM SIGBED Review
  • Heise, P., Geyer, F., Obermaisser, F. (2015). Deterministic OpenFlow: Performance Evaluation of SDN Hardware for Avionic Networks. 11th International Conference on Network and Service Management
  • Cevher, S., Mumcu, A., Caglan, A., Kurt, E., Peker, M., Hokelek, I., Altun, S. (2018). A Fault Tolerant Software Defined Networking Architecture for Integrated Modular Avionics. 2018 IEEE/AIAA 37th Digital Avionics Systems Conference (DASC)
  • Deterministic Networking (DetNet). Erişim adresi https://datatracker.ietf.org/wg/detnet/about/
  • Kumar, R., Monowar, H., Padhy, S., Evchenko, K., Piramanayagam, L., Mohan, S., Bobba R. (2017). End-to-End Network Delay Guarantees for Real-Time Systems using SDN 2017 IEEE Real-Time Systems Symposium (RTSS)
  • Mininet. Erişim adresi http://mininet.org
  • POX Wiki. Erişim adresi https://noxrepo.github.io/pox-doc/html/
  • Eppstein, D. (1994). Finding the k Shortest Paths. Department of Information and Computer Science University of California Tech. Report 26-94
There are 10 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Articles
Authors

Mustafa Burak Şenyiğit This is me

D Turgay Altılar

Publication Date April 1, 2020
Published in Issue Year 2020 Ejosat Special Issue 2020 (ARACONF)

Cite

APA Şenyiğit, M. B., & Altılar, D. T. (2020). IEEE 802.1 Time-Sensitive Networking Standardının Yazılım Tanımlı Ağ Yaklaşımıyla Değerlendirilmesi. Avrupa Bilim Ve Teknoloji Dergisi325-331. https://doi.org/10.31590/ejosat.araconf42