GMPLS Control Plane, Policy-Based Management, and Information Modeling

Generalized multi-protocol label switching (GMPLS) is an important enabling technology for the "All-IP" vision, but raises new challenges in multilayer network operations. The main goal of this paper is to investigate the policy-based management (PBM) approach applied to GMPLS network functionality, covering both packet switching and circuit switching technologies. We propose PBM mechanisms and policies to facilitate and improve the collaboration between the management plane and the GMPLS control plane, for the purpose of efficient GMPLS TE and service provisioning. We point out guidelines for policy information modeling, and we propose to extend the PCIM/e with policy event, to explicitly model the triggering of policy rules. This will increase automation and operational efficiency. We also recommend that the relationships between policy and management information and related support information must be explicitly captured and represented in a coherent modeling approach. The topic of GMPLS TE and service provisioning should be put on the IETF agenda.

[1]  Lou Berger,et al.  Generalized Multi-Protocol Label Switching (GMPLS) Signaling Resource ReserVation Protocol-Traffic Engineering (RSVP-TE) Extensions , 2003, RFC.

[2]  Jürgen Quittek,et al.  MPLS management using policies , 2001, 2001 IEEE/IFIP International Symposium on Integrated Network Management Proceedings. Integrated Network Management VII. Integrated Management Strategies for the New Millennium (Cat. No.01EX470).

[3]  Roch Guérin,et al.  A Framework for Policy-based Admission Control , 2000, RFC.

[4]  Tibor Cinkler,et al.  Multilayer traffic engineering for GMPLS-enabled networks , 2005, IEEE Communications Magazine.

[5]  Andrea Westerinen,et al.  Policy Core Information Model - Version 1 Specification , 2001, RFC.

[6]  Ravi Sahita,et al.  Differentiated Services Quality of Service Policy Information Base , 2003, RFC.

[7]  David Partain,et al.  The Differentiated Services Configuration MIB , 2004, RFC.

[8]  Ulrike Hartmer,et al.  Design of a network level management information model for automatically switched transport networks , 2002, NOMS 2002. IEEE/IFIP Network Operations and Management Symposium. ' Management Solutions for the New Communications World'(Cat. No.02CH37327).

[9]  Eric Mannie,et al.  Generalized Multi-Protocol Label Switching (GMPLS) Architecture , 2004, RFC.

[10]  Andrea Westerinen,et al.  Terminology for Policy-Based Management , 2001, RFC.

[11]  Kireeti Kompella,et al.  OSPF Extensions in Support of Generalized Multi-Protocol Label Switching (GMPLS) , 2005, RFC.

[12]  Jim Boyle,et al.  Accept-Ranges : bytes Content-Length : 55967 Connection : close Content-Type : text / plain Internet Draft , 2012 .

[13]  Bob Moore Policy Core Information Model (PCIM) Extensions , 2003, RFC.

[14]  John Strassner,et al.  Policy Quality of Service (QoS) Information Model , 2003, RFC.

[15]  Shai Herzog,et al.  RSVP Extensions for Policy Control , 2000, RFC.

[16]  John C. Strassner,et al.  Policy-based network management - solutions for the next generation , 2003, The Morgan Kaufmann series in networking.

[17]  Dimitri Papadimitriou,et al.  Improving network performance through policy-based management applied to generalized multi-protocol label switching , 2005, 10th IEEE Symposium on Computers and Communications (ISCC'05).

[18]  Steven Wright,et al.  Policy-Based Load-Balancing in Traffic-Engineered MPLS Networks , 2000 .