Use of a virtualization in the transition of a telecommunication networks toward 5G

Valerij Grasic

Abstract


We are in the front of the next big step of a new generation of the telecommunications networks, called 5G. The 5G in still in the preparation, but the actual wide spread use is nearby. The move toward 5G is not possible without use of a cloud and a virtualization. In the paper we are dealing with the issues how to incorporate existing fixed networks to the mobile 5G network and how to use a virtualization technology when moving to 5G. From the example of a real telecommunication system we defined issues, dilemmas and suggestions when moving toward 5G networks using virtualization.


Keywords


NFV, OpenStack, 5G, IMS, OpenBaton

References


Camarilla, G. and Garcia-Martin, M.A. (2006). The 3G IP Multimedia Subsystem (IMS):Merging the Internet and the Cellular Worlds. Second Edition. John Wiley & Sons Ltd.

Slapar, D. and Jezeršek, G. and Robnik, A. (2017). From Broadband to 5G. Zbornik referatov 33. delavnice o telekomunikacijah VITEL, pp. 72-77.

Chowdhury, N. M. M. K. and Boutaba, R. (2010). A survey of network virtualization. Computer Networks, no. 5, vol. 54, pp. 862–876.

ETSI. (October 2012). Network Functions Virtualisation,. White paper. portal.etsi.org/NFV/NFV_White_Paper.pdf

Han, B., Gopalakrishnan, V., Ji, L. and Lee, S. (2015). Network function virtualization: challenges and opportunities for innovations. IEEE Communications Magazine, no. 2, vol. 53, pp. 90–97.

ETSI GS NFV 001. (October 2013). Network Functions Virtualisation (NFV); Use Cases.

ETSI. GS NFV 002. (October 2013). Network Functions Virtualisation (NFV); Architectural Framework.

Nadeau, T. (2015). Network Function Virtualization. San Francisco: Morgan Kaufmann.

Mijumbi, R., Serrat, J., Gorricho, J.-L., Latre, S., Charalambides, M., Lopez, D. (2016). Management and orchestration challenges in network functions virtualization. IEEE Communication Magazine, no. 1, vol. 54, pp. 98–105.

Mijumbi, R., Serrat, J., Gorricho, J. et al. (2015). Network function virtualization: state-of-the-art and research challenges. IEEE Communications Surveys and Tutorials, vol. 18, issue: 1, pp. 236–262.

John, W., Moradi, F., Pechenot, B. and Sköldström, P. (2017). Meeting the observability challenges for VNFs in 5G systems. 2017 IFIP/IEEE Symposium on Integrated Network and Service Management (IM), Lisbon, pp. 1127-1130.

Hawilo, H., Shami, A., Mirahmadi, M. and Asal, R. (2014). NFV: state of the art, challenges, and implementation in next generation mobile networks (vEPC). IEEE Network, vol. 28, no. 6, pp. 18-26.

Bellavista, P., Foschini, L., Venanzi, R. and Carella, G. (2017). Extensible Orchestration of Elastic IP Multimedia Subsystem as a Service Using Open Baton. 2017 5th IEEE International Conference on Mobile Cloud Computing, Services, and Engineering (MobileCloud), San Francisco, CA, pp. 88-95.

Agrawal, P., et al. (2008). IP multimedia subsystems in 3GPP and 3GPP2: overview and scalability issues. IEEE Communications Magazine, vol: 46, no. 1, pp. 138–145.

Potvin, P., Gamardo, H.G., Nguyen, KK. and Cheriet, M. (2016) Hyper Heterogeneous Cloud-Based IMS Software Architecture: A Proof-of-Concept and Empirical Analysis. Leon-Garcia A. et al. (eds) Smart City 360°. Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering, vol 166. Springer, Cham.

Abu-Lebdeh, M., Sahoo, J., Glitho, R. and Tchouati, C. W. (2016). Cloudifying the 3GPP IP multimedia subsystem for 4G and beyond: A survey. IEEE Communications Magazine, vol. 54, no. 1, pp. 91-97.

Boubendir, A., Bertin, E. and Simoni, N. (2017). A VNF-as-a-service design through micro-services disassembling the IMS. 20th Conference on Innovations in Clouds, Internet and Networks (ICIN), Paris, pp. 203-210.

(2017-11-15). Open Stack. www.openstack.org

(2017-11-15). Open Platform for NFV (OPNFV): Open Platform for NFV Project. www.opnfv.org

Carella, G. et al. (2014). Cloudified IP Multimedia Subsystem (IMS) for Network Function Virtualization (NFV)-based architectures. 2014 IEEE Symposium on Computers and Communications (ISCC), Funchal, pp. 1-6.

Ersue, M. (2017-11-15). ETSI NFV Management and Orchestration - An Overview. www.ietf.org/proceedings/88/slides/slides-88-opsawg-6.pdf

Soenen, T., Tavernier, W., Colle, D. and Pickavet, M. (2017). Optimising microservice-based reliable NFV management & orchestration architectures. 2017 9th International Workshop on Resilient Networks Design and Modeling (RNDM), Alghero, Italy, pp. 1-7.

Yousaf, F.Z., Goncalves, C., Moreira-Matias, L., Perez, X.C. (2016). RAVA - resource aware VNF agnostic NFV orchestration method for virtualized networks. IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC).

(2017-11-15). Open Orchestrator. www.open-o.org

Komarek, A., Pavlik, J., Sobeslav, V. (2017) Orchestration and Automation of NVF. Xhafa F., Caballé S., Barolli L. (eds) Advances on P2P, Parallel, Grid, Cloud and Internet Computing. 3PGCIC 2017. Lecture Notes on Data Engineering and Communications Technologies, vol 13. Springer, Cham.

Medhat, A.M., Taleb, T., Elmangoush, A., Carella, G.A., Covaci, S., Magedanz, T. (2017). Service function chaining in next generation networks: state of the art and research challenges. IEEE Communication Magazine, vol: 55, (2), pp. 216–223.

Chen, J., Chen, Y., Tsai, S. C. and Lin, Y. B. (2017), Implementing NFV system with OpenStack. 2017 IEEE Conference on Dependable and Secure Computing, Taipei, pp. 188-194.

Callegati, F., Cerroni, W., Contoli, C. and Santandrea, G. (2015). Implementing dynamic chaining of Virtual Network Functions in OpenStack platform. 2015 17th International Conference on Transparent Optical Networks (ICTON), Budapest.

Khebbache, S., Hadji, M. and Zeghlache, D. (2017). Virtualized network functions chaining and routing algorithms. Computer Networks, vol. 114, pp. 95-110.

Open Container Initiative. (2017-11-15). opencontainers.org

Chen, J., Xu, S., Zhang, H. and Wang, Z. (2016). A Virtual Machine Data Communication Mechanism on Openstack. Zu, Q., Hu, B. (eds) Human Centered Computing. HCC 2016. Lecture Notes in Computer Science, vol 9567. Cham: Springer.

Cotroneo, D., De Simone, L. and Natella, R. (2017). NFV-Bench: A Dependability Benchmark for Network Function Virtualization Systems. IEEE Transactions on Network and Service Management, vol. PP, no. 99, pp. 1-1.

(2017-11-15). 5G Berlin. www.5g-berlin.org

(2017-11-15). 5G PPP. The 5G Infrastructure Public Private Partnership. 5g-ppp.eu

5GPPP (2016). 5G empowering vertical industries. 5g-ppp.eu/wp-content/uploads/2016/02/BROCHURE_5PPP_BAT2_PL.pdf

(Februar 2015). NGMN. NGMN 5G White paper.

www.ngmn.org/uploads/media/NGMN_5G_White_Paper_V1_0.pdf

ETSI. TS 123.228. IP Multimedia Subsystem (IMS); Stage 2.

ETSI. TS 124 229. Internet Protocol (IP) multimedia call control protocol based on Session Initiation Protocol (SIP) and Session Description Protocol (SDP); Stage 3.

Iskratel. (2017). SI3000 vIMS System Description.

ETSI. (October 2013). Network Functions Virtualisation – Update White Paper. White paper. portal.etsi.org/NFV/NFV_White_Paper2.pdf

ETSI. (October 2014). Network Functions Virtualisation – White Paper #3. White paper. portal.etsi.org/NFV/NFV_White_Paper3.pdf

ETSI. (Februar 2017). Network Functions Virtualisation – White Paper on NFV priorities for 5G. White paper. portal.etsi.org/NFV/NFV_White_Paper_5G.pdf

Slapar, D. (2017). Building Rock-Solid Cloud Solutions on a Non-consolidated Foundation The Sand of Everything. SDN NFV World Congress 2017, The Hague.

(2017-11-15). OpenBaton. www.openbaton.org

(2017-11-15). CepH. www.ceph.com

(2017-11-15). Zabbix. www.zabbix.com


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