1 / 20

Achieving information models for management and control of next-generation transport networks

Achieving information models for management and control of next-generation transport networks. Bela Berde Alcatel CIT. Håkon Lønsethagen Telenor R&D. Outline. Introduction & Background Requirements and goals Information Models and their point of view Modelling issues an proposals

jag
Télécharger la présentation

Achieving information models for management and control of next-generation transport networks

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Achieving information models for management and control of next-generation transport networks Bela BerdeAlcatel CIT Håkon LønsethagenTelenor R&D Broadband Networks for All – FP6 IST Workshop at NOC 2004

  2. Outline • Introduction & Background • Requirements and goals • Information Models and their point of view • Modelling issues an proposals • Modelling management features of control plane entities and capabilities • Policy-based Management and Information Model • Concluding remarks Broadband Networks for All – FP6 IST WS at NOC-04 2

  3. Overall Approach in NOBEL (WP4) Servicevision from Operators WP4 Equipment vision from Manufacturers Inputs from collaborations with external projects Broadband Networks for All – FP6 IST WS at NOC-04 3

  4. Next-generation transport network Broadband Networks for All – FP6 IST WS at NOC-04 4

  5. Next-generation transport network • Reduced OPEX • Efficient resource usage • Decentralized, IP-based control • New services • Customisation • Ubiquitous, distributed, standardized control plane • Multi-technology, multi-vendor, and multi-domain environment • Service production: Control plane – Management plane Integration based on a consistent IM Broadband Networks for All – FP6 IST WS at NOC-04 5

  6. Requirements and goals • Topology and network infrastructure construction • Call and connection set up, modification, and release • VPN set up, modification, and release • Survivability and fault handling of both the TP as well as the data communication network (DCN) • Performance monitoring and management • Traffic engineering (TE) also taking into account off-line TE capabilities • A control node can be physical separated from the TP • Supporting CP internal vertical interaction, considering also hierarchical CP solutions • Unified CP where a control node can control several transport network elements, typically being confined within the same location Broadband Networks for All – FP6 IST WS at NOC-04 6

  7. Control nodes andCP-TP separation NMI-A NMI-T Broadband Networks for All – FP6 IST WS at NOC-04 7

  8. Information Models and Point of View Broadband Networks for All – FP6 IST WS at NOC-04 8

  9. CPA IM – IM for NMI-A (1) CPC IM • IM of the managed entities representing the control plane (CP) itself, its components and capabilities,as perceived from a control node • To allow the MP to perform mgmt actions on the control node and to receive notifications • CPC IM refers to a unique control plane instance • “Control Node” is the main managed entity, a “Managed Element” containing other managed entities related to CP functionality • Management related to TE, Topology, Routing, Call/Connection control, CAC, DCN, logical control channels Broadband Networks for All – FP6 IST WS at NOC-04 9

  10. CPA IM – IM for NMI-A (2) CPT IM • IM representing managed entities associated with and derived from the transport plane (TP), its resources and the corresponding management functionality, as presented to the MP trough the CP • CPT IM refers to a unique control plane instance • The traditional network level information models could be the starting point for the development of this model • Entities like: Subnetwork, (TE) Link, SNPPs, Connections, etc. • Multi-layer switching capable entities and switching capability layer (SCL) entities Broadband Networks for All – FP6 IST WS at NOC-04 10

  11. MP IM – IM inside the MP (1) MPC IM • IM derived inside the MP (e.g. interface from Sub-NMS to General NMS) representing managed entities of the CP itself • Derived from the synthesised and coordinated view across several NMI-As (i.e. across several Control Nodes). • “Control Plane Network” is the main managed entity representing a network level CP instance • Supporting coordinated management by policies for the CP as perceived by the operator (NMS user) Broadband Networks for All – FP6 IST WS at NOC-04 11

  12. MP IM – IM inside the MP (2) MPT IM • IM inside the MP (e.g. from Sub-NMS to General NMS) representing managed entities associated with the synthesised and coordinated view of the TP • Integrated model based on • Information from and interaction with NMI-As • Information from and interaction with (indirectly) NMI-T • Important in various migration and integration scenarios involving legacy solutions • Multi-layer switching capable entities and switching capability layer (SCL) entities Broadband Networks for All – FP6 IST WS at NOC-04 12

  13. CPi IM – IM inside CP CPi IM • IM inside the CP – Two different cases: • When there is a hierarchy of control planes, e.g. multiple instances • Hierarchy of a control plane • Example: Two CP instances for • PWE3 (Martini) and • GMPLS on the same node • Hierarchical routing and path selection • IM for interaction between hierarchical levels (similar to PNNI) PWE3 Interlayer GMPLS Broadband Networks for All – FP6 IST WS at NOC-04 13

  14. CPA IM Broadband Networks for All – FP6 IST WS at NOC-04 14

  15. CPA IM • Signalling Mgr • Specific per Switching Capability Layer (SCL) • CAC • Enable the MP to control/handle the CAC behaviour - by policy • control (CAC specified in RFC 2745/2750) • Dependent on resource availability of the SCL • Signalling for e.g. light paths • Enable the MP to control/handle the signalling behaviour • e.g. Label proposition and selection Broadband Networks for All – FP6 IST WS at NOC-04 15

  16. CPA IM • Topology&Resource Mgr • Providing topology and resource handling functionality • Mgmt of Link bundling and related policies • Mgmt of SNPP configuration and assignment, and related policies Broadband Networks for All – FP6 IST WS at NOC-04 16

  17. Policy-based management for managing the CP . . . including managing the TP via the CP PBM advantages • Configurable policies provide flexibility and extensibility • Powerful mgmt operations • Local as well as global decision making • Contributing to efficient resource allocation and optimisation PBM challenges • Several implementation technologies • Complicates implementations and interoperability • Policy Information Models Broadband Networks for All – FP6 IST WS at NOC-04 17

  18. IM Application: Layered Policy Model for Impacting the Behavior of the CP • A 3-layer hierarchical model includes: • Low-level protocol (controller) configuration and management: RSVP-TE Refresh interval etc. • Management of control node internal functionality: E.g. CAC, Signaling, and Traffic Engineering controllers • LSP-life cycle management: LSP (and also TE Link, FA) Broadband Networks for All – FP6 IST WS at NOC-04 18

  19. Policy Information Modelling issues Protocol specific solutions – What is suitable for NMI-A? • COPS and PIBs • SNMP and (policy) MIBs • Other . . . IETF PCIM/PCIMe (Policy Core Information Model) • Protocol neutral • Configuration of interfaces – QoS, Security TMF Policy model • Extends the PCIMe model – e.g. with explicit • PolicyEvent • PolicyStatements An ASTN PIM should be developed • Level of abstraction – e.g. domain wide TE Broadband Networks for All – FP6 IST WS at NOC-04 19

  20. Concluding remarks Issues, alternatives, and innovative proposals • IMs for NMI-A, for the MP, and for the CP • TP and CP separation for the IMs • Multi-layer and SCL level entities • Hierarchical - vertical and horizontal integration of CP • Applicable for all connection-oriented layers • Prepare for management by policies NOBEL WP4 will progress this further • Specification • Implementation, experiments Broadband Networks for All – FP6 IST WS at NOC-04 20

More Related