Proposal and evaluation of SDN‐based mobile packet core networks

Recently, several researchers have proposed adopting software‐defined networking (SDN) concepts for mobile network architectures, particularly for LTE‐evolved packet core (LTE/EPC). Although several new designs have been introduced for architectures based on SDN or its concrete realization, Openflow, few studies have presented in‐depth discussions of real procedures that are relevant to such architectures. To this end, this paper first surveys the current approaches and solutions for adopting SDN/Openflow in LTE/EPC architectures and then introduces a new Openflow‐enabled EPC (OEPC) architecture. This work provides detailed analyses of five procedures that commonly occur in LTE/EPC architectures, and the analyses are further elaborated with the separation of the control and data planes and the support of extended Openflow protocol. The analysis shows that the data management of these procedures is simpler relative to traditional LTE/EPC. In addition, in order to prove that efficient data management takes place for these procedures relative to a traditional LTE/EPC architecture, the numbers of signalling messages that are processed by control entities (i.e., the MME and the controller) are taken into account as a metric to evaluate the OEPC architecture. Moreover, the results of a numerical evaluation also show the benefits of this proposal relative to another Openflow‐based LTE/EPC architecture.

[1]  Sheng Chen,et al.  Service‐oriented 5G network architecture: an end‐to‐end software defining approach , 2016, Int. J. Commun. Syst..

[2]  Indra Widjaja,et al.  Comparison of MME Signaling Loads for Long-Term-Evolution Architectures , 2009, 2009 IEEE 70th Vehicular Technology Conference Fall.

[3]  Kenji Leibnitz,et al.  Proposal and evaluation of a future mobile network management mechanism with attractor selection , 2012, EURASIP J. Wirel. Commun. Netw..

[4]  Yan Wang,et al.  Mobileflow: Toward software-defined mobile networks , 2013, IEEE Communications Magazine.

[5]  Young Han Kim,et al.  Slicing the next mobile packet core network , 2014, 2014 11th International Symposium on Wireless Communications Systems (ISWCS).

[6]  Jennifer Widom,et al.  Teletraffic modeling for personal communications services , 1997 .

[7]  Pankaj Kumar Gupta,et al.  Analysis of impact of network activity on energy efficiency of 3GPP-LTE , 2012, 2012 Annual IEEE India Conference (INDICON).

[8]  Luis M. Contreras,et al.  Software-defined control of the virtualized mobile packet core , 2015, IEEE Communications Magazine.

[9]  Ahmed Bouabdallah,et al.  A New LTE/EPC Control-Plane Based Transmission Procedure to Cope with Short Data Push Services , 2013, Wirel. Pers. Commun..

[10]  Younghan Kim,et al.  Signaling load analysis in openflow-enabled LTE/EPC architecture , 2014, 2014 International Conference on Information and Communication Technology Convergence (ICTC).

[11]  Sachin Katti,et al.  SoftRAN: software defined radio access network , 2013, HotSDN '13.

[12]  Lucian Suciu,et al.  Enabling network programmability in LTE/EPC architecture using OpenFlow , 2014, 2014 12th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt).

[13]  Gwendal Simon,et al.  New control plane in 3GPP LTE/EPC architecture for on-demand connectivity service , 2013, 2013 IEEE 2nd International Conference on Cloud Networking (CloudNet).

[14]  Xin Jin,et al.  SoftCell: scalable and flexible cellular core network architecture , 2013, CoNEXT.

[15]  Wolfgang Kellerer,et al.  A Virtual SDN-Enabled LTE EPC Architecture: A Case Study for S-/P-Gateways Functions , 2013, 2013 IEEE SDN for Future Networks and Services (SDN4FNS).

[16]  Philippe Bertin,et al.  Programmable Mobile Core Network , 2014, 2014 IEEE Symposium on Computers and Communications (ISCC).

[17]  Hyunseung Choo,et al.  The proposal for SDN supported future 5G networks , 2014, RACS '14.

[18]  Nick McKeown,et al.  OpenFlow: enabling innovation in campus networks , 2008, CCRV.

[19]  Fabio Pianese,et al.  DMME: A distributed LTE mobility management entity , 2012, Bell Labs Technical Journal.

[20]  Ulas C. Kozat,et al.  A new control plane for 5G network architecture with a case study on unified handoff, mobility, and routing management , 2014, IEEE Communications Magazine.