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Group0/1: Yangfei WANG z3471101

N. In-Operation Network Planning. Group0/1: Yangfei WANG z3471101 Amrita Manayil z3479501 Thangappan Madavan V K z5012717 Peng Fu z3452815 Shuo Sun z3486412

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Group0/1: Yangfei WANG z3471101

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  1. N In-Operation Network Planning Group0/1: Yangfei WANG z3471101 Amrita Manayil z3479501 Thangappan Madavan V K z5012717 Peng Fu z3452815 Shuo Sun z3486412 Total Slides :19

  2. Traditional statical transport networks deal with limited network traffic. • Statical networks can’t meet the uncertain network traffics surge. • In-operation planning methods help to reconfigure networks automatically to meet uncertain network demands. • Deals with Fault, Configuration, Accounting& Performance Managements. (FCAPS) Abstract

  3. Traditional Network planning is a offline process • Current transport and IP/MPLS layers are static and inflexible • High Operational Expenditures (OPEX) • Capacity over provisioning increases capital expenditures (CAPEX) Traditional Network Planning

  4. Auto fashioned real time reconfiguration and reoptimization possible with light provisioning support • Minimizes over provisioning and so reduces CAPEX In-Operation Network planning

  5. Generalize MPLS Control planes for real time system recovery • Add functional block between service and network layers • North bound Interface - Entry point for planned configuration and Multiple Service Provision • South bound Interface - Provisioning, Monitoring & Info retrieval Implementing In-Operation Planning

  6. Traditional network planning In-operation network planning Traditional VS In-operation Planning

  7. ABNO Controller - Network entrance point for NMS/OSS - Service layer entrance point for provisioning & Network coordination - Forward requests to PCE • PCE - Serve path computation requests - PCE communication protocol (PCEP) carry path computation requests and PCE responses - Uses Border Gateway Protocol Link state (BGP-LS) to gather network topology and current network resources details ABNO Architecture

  8. Process requests based on TE or Label switch path database (LSP - DB) • Virtual Network Topology Manager (VNTM) co-ordinates virtual network topology • The operations, administration & maintenance handler (OAM) responsible for for fault detection and correction. ABNO Architecture

  9. Case I: Virtual Topology Reconfiguration • Virtual topology reconfiguration includesmanagement functional areas as follows: • Fault management • Configuration management • Accounting management • Performance management after a failure Virtual topology reconfiguration disaster recovery

  10. Virtual Topology Reconfiguration Disaster Recovery A multilayer network consisting of four OXCs in the optical layer and three routers in the IP layer. After Failure -Fast reroute -State update -Virtual topology reconfiguration

  11. Request from the NMS/OSS New optimized layout (8) Final approval(7) ABNO controller(1) New (virtual) layout NO CHANGE PCE(2) ABNO controller (6) Back-end PCE(3) Active solver(4) VNTM(9) provisioning manager (10) (PCRep) message (5)

  12. Virtual Topology Reconfiguration Disaster Recovery A new lightpath is created between R1 and R2, and as a result R2-R3 can be rerouted .

  13. Virtual Topology Reconfiguration Disaster Recovery • Steps involved: • Immediate action by the network to recover some of the traffic • Dissemination of the new network state • Root cause analysis to understand what failed and why • An operator-assisted planning process to come up with a disaster • recovery plan • Execution of the plan, possibly in multiple steps • Reconvergence of the network after each step and in its final state • Reuse the resources for post-disaster priority connections.

  14. Routes and spectrum allocation is done considering the state of network resources. • Re-routing is done to remove bottlenecks and congestion. • Re-Optimization is used to improve network efficiency. Case II Study(Re-Optimization)

  15. Case II Study(Re-Optimization) The width of the slot is a function of requested bit rate, FEC and modulation format.

  16. ABNO Controller 5 Case II Study(Re-Optimization) NMS/OSS 6 back-end PCE 3 Result of Computation 4 front-end PCE PCE 7 Provisioning Manager 2 PCReq Control Plane 1 Flexi-grid core network Router B Router A PCE: Path Computation Element PCR: Pat Computation Reply ABNO: Application-Based Network Operations

  17. 1.Velasco, L., Castro, A., King, D., Gerstel, O., Casellas, R., & Lopez, V. (2014). In-operation network planning. Communications Magazine, IEEE, 52(1), 52-60. 2.Jajszczyk, A. (2005). Automatically switched optical networks: benefits and requirements. Communications Magazine, IEEE, 43(2), S10-S15. 3. Ash, J., & Farrel, A. (2006). A path computation element (PCE)-based architecture. 4.Gredler, H., Medved, J., Previdi, S., Farrel, A., & Ray, S. (2013). North-bound distribution of link-state and TE information using BGP. ID draft-ietf-idr-lsdistribution-03. References List

  18. Thank you !

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