Published August 2, 2019 | Version v1
Conference paper Open

Illustrated Technical Paper - A Pub/Sub SDN-Integrated Framework for IoT Traffic Orchestration

Creators

  • 1. Salvador University - UNIFACS

Description

This "ILLUSTRATED TECHNICAL PAPER" presents the slides describing the contents of the paper "A Pub/Sub SDN-Integrated Framework for IoT Traffic Orchestration". The talk was presented at the 3rd International Conference on Future Networks and Distributed Systems - ICFNDS 2019, 1 - 2 July 2019 at Paris, France. The "illustrated technical paper format" is intended to complement, enrich and subsidize the technical paper content and contains slides, complementary text and additional and/or focused bibliographic references.

Notes

Authors thanks CAPES (Coordenação de Aperfeiçoamento do Pessoal de Ensino Superior) for the master scholarship (MSc) support.

Files

JSMNet___V20_N_3_2019___SDNPSIoT_Paper___ICFNDS___PUBLISHED.pdf

Files (3.4 MB)

Additional details

References

  • Pedro Moraes and Joberto Martins. A Pub/Sub SDN-Integrated Framework for IoT Traffic Orchestration. In Proceedings of the 3rd International Conference on Future Networks and Distributed Systems - ICFNDS 2019, pages 1–9, Paris, July 2019. ACM ICPS.
  • Pedro Francesco Moraes, Rafael F. Reale, and Joberto S. B. Martins. A Publish/Subscribe QoS-aware Framework for Massive IoT Traffic Orchestration. In Proceedings of the 6th International Workshop on ADVANCEs in ICT Infrastructures and Services - ADVANCE 2018, pages 1–14, Santiago, Chile, January 2018. Université Paris-Saclay Évry - Proceedings of the 6th International Workshop on ADVANCEs in ICT Infrastructures and Services - ADVANCE 2018.
  • Michael Baddeley, Reza Nejabati, George Oikonomou, Mahesh Sooriyabandara, and Dimitra Simeonidou. Evolving SDN for Low-Power IoT Networks. In 2018 4th IEEE Conference on Network Softwarization and Workshops (NetSoft), pages 71–79, June 2018.
  • Yaser Jararweh, Mahmoud Al-Ayyoub, Ala' Darabseh, Elhadj Benkhelifa, Mladen Vouk, and Andy Rindos. SDIoT: A Software Defined Based Internet of Things Framework. Journal of Ambient Intelligence and Humanized Computing, 6(4):453–461, August 2015.
  • Samaresh Bera, Sudip Misra, and Athanasios V. Vasilakos. Software-Defined Networking for Internet of Things: A Survey. IEEE Internet of Things Journal, 4(6):1994–2008, December 2017
  • Mathieu Boussard, Dinh T. Bui, Laurent Ciavaglia, Richard Douville, Michel Le Pallec, Nicolas Le Sauze, Ludovic Noirie, Serge Papillon, Pierre Peloso, and Francesco Santoro. Software-Defined LANs for Interconnected Smart Environment. September 2015.
  • Diego Kreutz, Fernando MV Ramos, Paulo Esteves Verissimo, Christian Esteve Rothenberg, Siamak Azodolmolky, and Steve Uhlig. Software-defined networking: A comprehensive survey. Proceedings of the IEEE, 103(1):14–76, 2015.
  • Sahrish Khan Tayyaba, Munam Ali Shah, Omair Ahmad Khan, and Abdul Wahab Ahmed. Software Defined Network (SDN) Based Internet of Things (IoT): A Road Ahead. In Proceedings of the 2nd International Conference on Future Networks and Distributed Systems, ICFNDS '17, pages 15:1–15:8, New York, NY, USA, 2017. ACM.
  • Di Wu, Dmitri I. Arkhipov, Eskindir Asmare, Zhijing Qin, and Julie A. McCann. Ubiflow: Mobility Management in UrbanScale Software Defined Iot. In 2015 IEEE Conference on Computer Communications (INFOCOM), pages 208–216, April 2015.
  • Rafael Reale, Romildo Bezerra, and Joberto Martins. G-BAM: A Generalized Bandwidth Allocation Model for IP/MPLS/DSTE Networks. International Journal of Computer Information Systems and Industrial Management Applications, 6:635–643, 2014.
  • Rafael F. Reale, Walter d C. P. Neto, and Joberto S. B. Martins. AllocTC-Sharing: A New Bandwidth Allocation Model for DS-TE Networks. In 7th Latin American Network Operations and Management Symposium, pages 1–4, Quito, Equador, October 2011. IEEE Institute of Electrical and Electronics Engineers.
  • Walter da Costa Pinto Neto and Joberto S. B. Martins. Adapt-RDM - A Bandwidth Management Algorithm suitable for DiffServ Services Aware Traffic Engineering. In IEEE Network Operations and Management Symposium (NOMS), pages 975– 978. IEEE, 2008.
  • Romildo Bezerra, Rafael Reale, Gilvan Durães, and Joberto Martins. Uma Visão Tutorial dos Modelos de Alocação de Banda como Mecanismo de Provisionamento de Recursos em Redes IP/MPLS/DS-TE. Revista de Sistemas e Computação, 5(2):144–155, December 2015.
  • R. F. Reale, W. da C. P. Neto, and J. S. B. Martins. Routing in DS-TE Networks with an Opportunistic Bandwidth Allocation Model. In 2012 IEEE Symposium on Computers and Communications (ISCC), pages 000088–000093, Turkey, July 2012. IEEE Institute of Electrical and Electronics Engineers.
  • Flavio Bonomi, Rodolfo Milito, Jiang Zhu, and Sateesh Addepalli. Fog computing and its role in the internet of things. In Proceedings of the first edition of the MCC workshop on Mobile cloud computing, pages 13–16. ACM, 2012.
  • Yuxuan Jiang, Zhe Huang, and Danny H. K. Tsang. Challenges and solutions in fog computing orchestration. IEEE Network, pages 1–8, 2017.
  • Amir Modarresi, Siddharth Gangadhar, and James P.G. Sterbenz. A framework for improving network resilience using SDN and fog nodes. In 2017 9th International Workshop on Resilient Networks Design and Modeling (RNDM). IEEE, sep 2017.
  • Daniele Santoro, Daniel Zozin, Daniele Pizzolli, Francesco De Pellegrini, and Silvio Cretti. Foggy: A platform for workload orchestration in a fog computing environment. In 2017 IEEE International Conference on Cloud Computing Technology and Science (CloudCom). IEEE, dec 2017.
  • Wei Yu, Fan Liang, Xiaofei He, William G. Hatcher, Chao Lu, Jie Lin, and Xinyu Yang. A survey on the edge computing for the internet of things. IEEE Access, 6:6900–6919, 2018.
  • Elie E. Rachikidi. Modeling and placement optimization of compound service in a converged infrastructure of cloud computing and internet of things. Universite Paris-Saclay, Evry, 2017.
  • Eleonora Borgia. The internet of things vision: Key features, applications and open issues. Computer Communications, 54:1–31, 2014.
  • Mervat Abu-Elkheir, Mohammad Hayajneh, and Najah Ali. Data management for the internet of things: Design primitives and solution. Sensors, 13(11):15582–15612, nov 2013.
  • Naser Al-Falahy and Omar Y. K. Alani. Supporting massive m2m traffic in the internet of things using millimetre wave 5g network. In 2017 9th Computer Science and Electronic Engineering (CEEC). IEEE, sep 2017.
  • Ala Al-Fuqaha, Mohsen Guizani, Mehdi Mohammadi, Mohammed Aledhari, and Moussaq Ayyash. Internet of things: A survey on enabling technologies, protocols, and applications. IEEE Communications Surveys & Tutorials, 17(4):2347–2376, 2015.
  • Basim K. J. Al-Shammari, Nadia Al-Aboody, and Hamed S. Al-Raweshidy. IoT traffic management and integration in the QoS supported network. IEEE Internet of Things Journal, 5(1):352–370, feb 2018.
  • Mukesh Taneja. A framework for traffic management in IoT networks. In 2nd Int. Conference on Contemporary Computing and Informatics (IC3I), dec 2016.
  • Ling Qian, Zhiguo Luo, Yujian Du, and Leitao Guo. Cloud computing: An overview. Lecture Notes in Computer Science, pages 626–631, 2009.
  • Ivan Stojmenovic and Sheng Wen. The fog computing paradigm: Scenarios and security issues. Proceedings of the 2014 Federated Conference on Computer Science and Information Systems, 2014.
  • Yali Wang, Yang Zhang, and Junliang Chen. An SDN-based publish/subscribe-enabled communication platform for IoT services. China Communications, 15(1):95–106, jan 2018.
  • Meisong Wang, Charith Perera, Prem P. Jayaraman, Miranda Zhang, Peter E. Strazdins, and Rajiv Ranjan. City data fusion: Sensor data fusion in the internet of things. CoRR, abs/1506.09118, 2015.
  • Ankit Tripathi, Sanjeev Gupta, and Bharti Chourasiya. Survey on data aggregation techniques for wireless sensor networks. International Journal of Advanced Research in Computer and Communication Engineering, 3(7):7366–7371, 2014.
  • Hafizur Rahman, Nurzaman Ahmed, and Iftekhar Hussain. Comparison of data aggregation techniques in internet of things (IoT). In 2016 International Conference on Wireless Communications, Signal Processing and Networking (WiSPNET). IEEE, mar 2016.
  • Behrouz Pourghebleh and Nima J. Navimipour. Data aggregation mechanisms in the internet of things: A systematic review of the literature and recommendations for future research. Journal of Network and Comp. Applications, 97:23–34, nov 2017.
  • Badraddin Alturki, Stephan Reiff-Marganiec, and Charith Perera. A hybrid approach for data analytics for internet of things. In Proceedings of the Seventh International Conference on the Internet of Things, page 7. ACM, 2017.
  • ETSI European Telecommunications Standards Institute. Machine-to-machine communications (m2m); mia, dia and mid interfaces, 2 2012.
  • Angel Leonardo Valdivieso Caraguay, Alberto Benito Peral, Lorena Isabel Barona Lopez, and Luis Javier Garcia Villalba. Sdn: Evolution and opportunities in the development iot applications. International Journal of Distributed Sensor Networks, 10(5), 2014.
  • F L Faucher and W Lai. Maximum Allocation Bandwidth Constraints Model for DiffServ-aware MPLS Traffic Engineering. Request for Comments RFC 4125, Internet Engineering Task Force - IETF, June 2005.
  • Hedi Krishna. Providing End-to-End Bandwidth Guarantees with OpenFlow. PhD thesis, 2016.
  • Bob Lantz. Mininet: Emulator for Rapid Prototyping of Software Defined Networks, March 2018.
  • Murphy Mc and Colin Scott. Pox is a networking software platform written in python, 2013.
  • Ben Pfaff, Justin Pettit, Teemu Koponen, Ethan Jackson, Andy Zhou, Jarno Rajahalme, Jesse Gross, Alex Wang, Joe Stringer, Pravin Shelar, et al. The design and implementation of open vswitch. In 12th fUSENIXg Symposium on Networked Systems Design and Implementation (fNSDIg 15), pages 117–130, 2015.
  • Hedi Krishna, Niels L. M. van Adrichem, and Fernando A. Kuipers. Providing Bandwidth Guarantees with Openflow. In 2016 Symposium on Communications and Vehicular Technologies (SCVT), pages 1–6, November 2016.

Subjects

Network Architecture and Design
http://www.acm.org/about/class/ccs98-html#C.2.1
Communications Applications
http://www.acm.org/about/class/ccs98-html#H.4.3
Network Operations
http://www.acm.org/about/class/ccs98-html#C.2.3
Distributed Systems
http://www.acm.org/about/class/ccs98-html#C.2.4