GR Semicolon EN

Show simple item record

dc.contributor.author
Apostolidis, Panagiotis
en
dc.date.accessioned
2016-02-12T07:54:41Z
dc.date.available
2016-05-01T00:00:14Z
dc.date.issued
2016-02-12
dc.identifier.uri
https://repository.ihu.edu.gr//xmlui/handle/11544/12435
dc.rights
Default License
dc.subject
SDN
en
dc.subject
Network Management
en
dc.title
Network management aspects in SDN
en
heal.type
masterThesis
el
heal.classification
ICT
en
heal.classification
Network Management
en
heal.keywordURI.LCSH
Computer network architectures.
heal.keywordURI.LCSH
Computer networks.
heal.keywordURI.LCSH
Computer networks--Management.
heal.language
en
el
heal.access
free
el
heal.license
http://creativecommons.org/licenses/by-nc/4.0
el
heal.references
[1] KimH, Feamster N. Improving network management with software - defined ne t- working. IEEE Comm Mag, 2013 [2] ONF White paper. Software - Defined Networking: The New Norm for Ne t works. Open Networking Foundation, 2012 [3] Sakir, S. Scott - Hayward, S. Chouhan, K, Fraser, B. Finnegan, J. VilJoen, N. Mil- ler, M. Rao, N. “Are ready for SDN? Implementation Challenges for Sof t ware - Defined Networking”, IEEE Comm Mag, 2013 [4] Clemm, A. Network Management Fundamentals. Cisco Press, 2007 [5] Kurose, J. Ross, K. Computer Networking: A Top - Down Approach. Pearson, 2013 [6] Verma, D. Principle of Computer Systems and Network Management, Springer, 2009 [7] ONF White paper. OpenFlow - enabled SDN and Network Functions Virtualiz a- tion. O pen Networking Foundation, 2014 [8] Aboba, B. Arkko, J. Harrington, D. Introduction to Accounting Management, RFC 2975, IETF, 2000 [9] Cisco White paper. Network Reference Management Architecture, Cisco, 2008 [10] Boucadair, M. Jacquenet, C. SDN: A Perspective from within a Service Provider Environment. IETF, 2014 [11] Goranson, P. Blach, C. Software Defined Networks: A comprehensive approach. Morgan Kaufman, 2014 [12] ONF White paper. OpenFlow Switch Specification Version 1.5.0. Open Networ k- ing Fo undation, 2014 [13] S harma, S. Staessens, D. Colle, D., Pickavet M. Demeester, P. Fast failure reco v- ery for in - band OpenFlow networks. I EEE Comm Mag, 2013 [14] S harma, S. Staessens, D. Colle, D., Pickavet M. Demeester, P. OpenFlow: Mee t- ing Carrier - Grade requirements. Computer Communications , 2013 - 69 - [15] S harma, S. Staessens, D. Colle, D., Pickavet M. Demeester, P. Enabling Fast fai l- ure recovery for in - band OpenFlow networks, DRCN, 2011 [16] Niven - Jenkins, B. Brungard, D. Betts, M. Sprecher, N. Ueno, S. MP LS - TP r e- quirements, RFC5654, IETF 2009. [17] Capone, A. Cascone, C. Nguyen, A. Sanso, B. Detour Planning for Fast and Rel i- able Failure Recovery in SDN with OpenState. DRCN, 2015 [18] Kempf, J. Bellagamba, E. Kern, A.Jocha, D. Takacs, A. Scalable Fault Ma nag e- ment for OpenFlow, IEEE ICC, 2012 [19] Niels, L. Benjamin, J. Kuipers A. Fast Recovery in Software - Defined Networks, EWSDN, 2014 [20] Devlic, A. John, W. Skoldstrom, P. A use - case based analysis of network ma n- agement functions in the ONF SDN model. E WSDN, 2012 [21] ONF White paper. OpenFlow Management and Configuration Protocol. Open Networking Foundation, 2014 [22] Canini, M. Venzano. D, Kostic, D. Rexford, J., Peresini, P. A NICE way to test OpenFlow applications, NSDI, 2012 [23] Reitblat, M. Fos ter, N. Rexford, J. Schlesinger, C. Abstractions for Network U p- date, ACM SIGCOMM, 2012 [24] Yamashita, S. Tanaka, H. Hori, Y. Development of Network User Authentication System using OpenFlow, BWCCA, 2013 [25] Adrichem, N. Doerr, C. Kuipers, A. OpenNetMo n, Network Monitoring in Ope n- Flow Software - Defined Networks, NOMS, 2014 [26] Yu, M. Jose, L. Miao, R. Software Defined Traffic Measurement with Ope n Sketch, NSDI, 2013 [27] Du. Q, Zhuang, H. OpenFlow - Based Dynamic Server Cluster Load Balancing with Measu rement Support, Journal of Communications, 2015 [28] Porras, P. Cheung, S. Fong, M. Skinner, K. Yegneswaran, V. Securing the Sof t- ware - Defined Network Control Layer, NDSS, 2015 [29] Mehdi, S. Khalid, J. Khayam, S. Revisiting Traffic Anomaly Detection Usin g Software Defined Networking, Recent Advances in Intrusion Detection, Lecture Notes in Co m put- er Sc i ence, Sommer, D. Balzarotti, and G. Maier, Eds. Springer, Berlin Heidelberg, 2011 - 70 - [30] Schechter, S, Jung, J. Berger, A. Fast detection of scanning worm in fections, RAID - 2004 - LNCS, Springer Heidelberg, 2004 [31] Williamson, M.: Throttling viruses: Restricting propagation to defeat malicious mobile code, ACSAC, 2002 [32] Gu, Y. McCallum, A. Towsley, D. Detecting anomalies in network traffic using maximum en tropy estimation. ACM SIGCOMM, 2005 [33] Cai, Z. Cox, A., Eugene, N. Maestro: A System for Scalable OpenFlow Control, Rice University Technical Report, 2011 [34] Braga, R. Mota, E. Passito, A. Lightweight DDoS Flooding Attack Detection U s- ing NOX/OpenFlow , IEEE LCN, 2010 [35] Haykin, S. Neural networks: a comprehensive foundation. Prentice Hall PTR U p- per Saddle River, 1999 [36] Kreutz, D, Ramos, F., Verissimo, P. Towards Secure and Dependable Software - Defined Networks, ACM SIGCOMM, 2013 [37] Yan, Z. Pre hofer, C. Autonomic Trust Management for a Component - Based Sof t ware System, IEEE Trans. Dep. and Sec. Computing, 2011 [38] Cryptanalysis.eu: SSL/TLS broken again, https://cryptanalysis.eu/blog/2013/03/15/ssltls - broken - again - a - weakness - in - the - rc4 - stream - cipher/ , 2013 (retrieved on 28/9/2015) [39] Holz, R. X.509 Forensics: Detecting and Localizing the SSL/TLS Men - in - the - Middle, LNCS, 2012 [40] ONF, SDN Security Considerations in the Data Center, Open Networking Fou n- dation, 2013 [41] Application Note, SDN Analytics for Elephant Flow Marking an Inherent, Sca l a- ble Solution for the Enterprise, Alcatel - Lucent, 2014 [42] Phaal, P. Panchen, S. InMon Corporation's sFlow: A Method for Monitoring Tra f- fic in Switched and Routed Networks, RFC 3176, IETF, 2001 [43] Hu, H. Han, W. Ahn, G - J, Zhao, Z. FLOWGUARD: building robust firewalls for software - defined networks, HotSDN ’14, 2014 [44] Mukundha, C. Impr oving QoS in Cloud Based Networks with Software Defined Networks, International Journal of Science and Research, 2015 - 71 - [45] Amdt, M. Kambli, R. Kittappa, T. Lauwers, C. Menezes, P. Rai, S. Tonogai, D. UC SDN Use Case Version 1.2: Automating QoS, Unified Co mmunications In- tero p erability Forum, 2014 [46] Ghobadi, M. Yeganeh, S. Ganjali, Y. Rethinking End - to - End Congestion Control in Software - Defined Networks, Proceedings of the 11th ACM Workshop on Hot Topics in Networks, 2012 [47] Mininet.org: https://github.com/mininet/mininet/wiki/ Introduction - to - Mininet#what (retrieved on 1/11/2015) [48] Feamster, N. Rexford, J. Zegura, H. The Road to SDN: An Intellectual History of Programmable Networks, ACM Queue , 2013
el
heal.recordProvider
School of Science and Technology, MSc in Information & Communication Technology Systems
el
heal.publicationDate
2016-02-02
heal.abstract
Abstract This dissertation was written as a part of the MSc in ICT Systems at the International Hellenic University. SDN is a network approach that separates the control plane from the underlying systems that forward traffic to the sele cted destination. In SDN networks, management functions have to be effective to ensure performance and availability. In this master thesis, ma n- agement functions of SDN networks are studied through the perspective of the FCAPS ISO framework. Existing studie s, use cases and ONF SDN features are used as sources of information that help in identifying and evaluating management functions. The cat e- gorization of the evaluated functions according to the FCAPS model, allows us to argue that, through the perspective of FCAPS model, the Network Management of OpenFlow based SDN networks can be considered effective as soon as it is supported with trad i- tional network management mechanisms and third party OpenFlow - companion sol u- tions. Issues that still exist in limited num ber of management functions mainly concern carrier - grade networks. Further investigation, programmability effort and continuous development of OpenFlow is required. I would like to thank my supervisor, Professor Andreas Pitsillides for giving me the o p- port unity to work with an interesting and emerging technology. His guidance and support played a very significant role to the development and completion of this thesis. I would also like to thank my family for being supportive and patient throughout the thesis work
en
heal.tableOfContents
Contents ABSTRACT ................................ ................................ ................................ ..................... V 1 INTRODUCTION ................................ ................................ ................................ .... 1 1.1 T HE PRO BLEM ( S ) WITH N ETWORK M ANAGEMENT ................................ .............. 1 1.2 D OES SDN ADD MORE PROBLEMS IN NETWORK MANAGEMENT ? ........................ 2 1.3 T HE IMPORTANCE OF N ETWORK M ANAGEMENT ................................ ................. 3 1.4 T HESIS GOAL AND OUTLI NE ................................ ................................ ................ 5 2 BACKGROUND ................................ ................................ ................................ ....... 7 2.1 N ETWORK M ANAGEMENT ................................ ................................ ................... 7 2.1.1 Definition of Network Management ................................ ....................... 7 2.1.2 History of Network Management ................................ ........................... 8 2.1.3 ISO Functional model for network management (FCAPS) ................... 9 2.2 S OFTWARE D EFINED N ETWORKING ................................ ................................ .. 11 2.2.1 History of SDN ................................ ................................ ..................... 12 2.2.2 SDN architecture ................................ ................................ ................. 12 2.3 O PEN F LOW ................................ ................................ ................................ ....... 15 2.3.1 History of OpenFlow ................................ ................................ ........... 15 2.3.2 OpenFlow basic architecture ................................ ............................... 15 2.3.3 Open Flow Switch ................................ ................................ ................ 16 2.3.4 SD N OpenFlow Controller ................................ ................................ .. 20 2.3.5 Communication between OpenFlow devices ................................ ....... 21 2.4 OF - C ONFIG ................................ ................................ ................................ ....... 21 2.5 SDN AND NFV ................................ ................................ ................................ . 21 - iv - 3 SDN MANAGEMENT AND F CAPS ................................ ................................ .... 23 3.1 F AULT MANAGEMENT IN SDN ................................ ................................ .......... 23 3.2 C ONFIGURATION M ANAGEMENT IN SDN ................................ .......................... 28 3.3 A CCOUNTING M ANAGEMENT IN SDN ................................ ............................... 34 3.4 P ERFORMANCE M ANAGEMENT IN SDN ................................ ............................ 37 3.5 S ECURITY M ANAGEMENT IN SDN ................................ ................................ .... 45 4 FCAPS EVALUATION IN SDN ................................ ................................ ........... 52 4.1 M ETHODOLOGY OF EVALUA TION ................................ ................................ ...... 52 4.2 E VALUATION ISSUES ................................ ................................ ......................... 54 4.3 E VALUATION OF F AULT M ANAGEMENT IN SDN ................................ ............... 55 4.4 E VALUATION OF C ONFIGURATION M ANAGEMENT IN SDN ............................... 58 4.5 E VALUATION OF A CCOUNTING M ANAGEMENT IN SDN ................................ .... 60 4.6 E VALUATION OF P ERFORMANCE M ANAGEMENT IN SDN ................................ .. 62 4.7 E VALUATION OF S ECURITY M ANAGEMENT IN SDN ................................ ......... 64 5 CONCLUSIONS AND FUTU RE WORK ................................ ............................ 66 5.1 S UMMARY OF MAIN POIN TS IN SDN MANAGEMENT ................................ .......... 66 5.2 C ONCLUDING STATEMENTS ................................ ................................ ............... 66 5.3 R ECOMMENDATIONS AND F UTURE WORK ................................ ......................... 67 BIBLIOGRAPHY ................................ ................................ ................................ ......... 68 APPENDIX ................................ ................................ ................................ .................... 72
en
heal.advisorName
Pitsillides, Andreas
en
heal.committeeMemberName
Mylonas, Yiannos
en
heal.committeeMemberName
Gatzianas, Marios
en
heal.academicPublisher
IHU
en
heal.academicPublisherID
ihu
el
heal.numberOfPages
73
el


This item appears in the following Collection(s)

Show simple item record

Related Items