Journal Radioengineering №5 for 2017 г.
Article in number:
Adaptive routing algorithms in software defined networks based on openflow protocol
Type of article: scientific article
UDC: 004.72
Keywords: software defined networks adaptive routing controller OpenFlow Mininet POX
Authors:

V.P. Koryachko – Honored Scientist of RF, Dr. Sc. (Eng.), 

Professor, Head of Department of Computer-Aided Design Systems, Ryazan State Radio Engineering University

E-mail: koryachko.v.p@rsreu.ru

D.A. Perepelkin – Ph. D. (Eng.), Associate Professor, Department of Computer-Aided Design Systems,  Ryazan State Radio Engineering University

E-mail: dmitryperepelkin@mail.ru

M.A. Ivanchikova – Post-graduate Student, Department of Computer-Aided Design Systems, 

Ryazan State Radio Engineering University

E-mail: ivanchikova.masha@yandex.ru

V.S. Byshov – Undergraduate, Department of Computer-Aided Design Systems, 

Ryazan State Radio Engineering University

E-mail: b.v.s.12@yandex.ru

I.Yu. Tsyganov – Undergraduate, Department of Computer-Aided Design Systems, 

Ryazan State Radio Engineering University

E-mail: tsyganov.ilya62@yandex.ru

Abstract:

The research problem of adaptive routing algorithms in software defined networks based on OpenFlow protocol is considered. The purpose of work is development of visual design environment of adaptive routing processes in software defined networks based on OpenFlow protocol with ability to integrate data into virtual environment Mininet. In the work program implementation of adaptive routing algorithms in Python 2.7 language is offered and the comparative analysis of their efficiency by minimum delay criterion is made

References
  1. McKeown N., Anderson T., Balakrishnan H., Parulkar G., Peterson L., Rexford J., Shenker S., Turner J. Openflow: Enabling Innovation in Campus Networks // Proc. ACM SIGCOMM Computer Communication Review. 2008. V. 38. № 2. P. 69−74.
  2. Smelyanskij R.L. Programmno-konfiguriruemy’e seti // Otkry’ty’e sistemy’. SUBD. 2012. № 9. S. 18.
  3. Hilmi Enes Egilmez. Adaptive Video Streaming over OpenFlow Networks with Quality of Service / Thesis for Degree of Master Science in Electrical and Electronics Engineering. Koc University. July 2012. 91 p.
  4. Vishnevskij V.M. Teoreticheskie osnovy’ proektirovaniya komp’yuterny’x setej. M.: Texnosfera. 2003. 512 s.
  5. Koryachko V.P., Perepelkin D.A. Analiz i proektirovanie marshrutov peredachi danny’x v korporativny’x setyax. M.: Goryachaya liniya – Telekom. 2012. 235 s.
  6. Perepelkin D.A., Perepelkin A.I. Razrabotka algoritmov adaptivnoj marshrutizaczii v korporativny’x vy’chislitel’ny’x setyax // Vestnik Ryazanskogo gosudarstvennogo radiotexnicheskogo universiteta. 2006. № 19. S. 114−116.
  7. Perepelkin A.I., Perepelkin D.A. Razrabotka algoritma dinamicheskoj marshrutizaczii na baze protokola OSPF v korporativny’x vy’chislitel’ny’x setyax // Vestnik Ryazanskogo gosudarstvennogo radiotexnicheskogo universiteta. 2009. № 28. S. 68−72.
  8. Perepelkin D.A., Perepelkin A.I. Algoritm adaptivnoj uskorennoj marshrutizaczii v usloviyax dinamicheski izmenyayushhixsya nagruzok na liniyax svyazi v korporativnoj seti // Informaczionny’e texnologii. 2011. № 3. S. 2−7.
  9. Perepelkin D.A. Algoritm parny’x perestanovok marshrutov na baze protokola OSPF pri dinamicheskom podklyuchenii uzlov i linij svyazi korporativnoj seti // Vestnik Ryazanskogo gosudarstvennogo radiotexnicheskogo universiteta. 2013. № 4−1 (46). S. 67−75.
  10. Perepelkin D.A. Algoritm parny’x perestanovok marshrutov na baze protokola OSPF pri dinamicheskom otkaze uzlov i linij svyazi korporativnoj seti // Vestnik Ryazanskogo gosudarstvennogo radiotexnicheskogo universiteta. 2014. № 47. S. 84−91.
  11. Perepelkin D.A. Dinamicheskoe formirovanie struktury’ i parametrov linij svyazi korporativnoj seti na osnove danny’x o parny’x perestanovkax marshrutov // Informaczionny’e texnologii. 2014. № 4. S. 52−60.
  12. Perepelkin D.A., Perepelkin A.I. Povy’shenie kachestva funkczionirovaniya korporativny’x setej na baze protokola OSPF // Kachestvo. Innovaczii. Obrazovanie. 2010. № 12. S. 51−56.
  13. Koryachko V.P., Perepelkin D.A. Razrabotka i issledovanie matematicheskoj modeli mnogoputevoj adaptivnoj marshrutizaczii v setyax svyazi s balansirovkoj nagruzki // E’lektrosvyaz’. 2014. № 12. S. 27−31.
  14. Perepelkin D.A. Konczeptual’ny’j podxod dinamicheskogo formirovaniya trafika programmno-konfiguriruemy’x telekommunikaczionny’x setej s balansirovkoj nagruzki // Informaczionny’e texnologii. 2015. T. 21. № 8. S. 602−610.
Date of receipt: 17 апреля 2017 г.