Consult 21 Interconnect Working Group Overview Of NICC NGN Interconnect Architecture For PSTN/ISDN Replacement Rob Spindley BT 4/1/2006.

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Presentation transcript:

Consult 21 Interconnect Working Group Overview Of NICC NGN Interconnect Architecture For PSTN/ISDN Replacement Rob Spindley BT 4/1/2006

Introduction The information in this presentation is extracted from NICC document ND1612:2006/mm - Generic IP Connectivity for PSTN / ISDN Services between UK Next Generation Networks This presentation is an overview of the Architecture and not a full presentation of the contents of ND1612 This presentation uses NICC information and not BT information The NICC information is in advanced stages of review and is due to be published early in 2006 – there could therefore be changes to the information ND1612 will be presented for approval at the NICC ARS meeting on 17 th Jan 2006

Functional Architecture for PSTN / ISDN Generic Connectivity

Labelling Conventions Used All logical functions identifiers begin with the letter ‘f’. All interconnect interfaces identifiers begin with the letter ‘i’. The second letter of an identifier (function or interface) indicates if it is associated with the Control plane(C) or the Bearer plane (B). ‘T’ denotes functions or interfaces associated with the MSI Common Transport Specification. E.g. iC5 is control plane interface number 5. All functions and interfaces that have their own separate technical definition are labelled with a number unique to the identifier type. E.g. fC1 and iC1 are different defined entities as are iB1 and iB2. Multiple instances of separate functions or interfaces that have the same definitions have the same identifier root but are differentiated by appending an alpha letter to the root identifier. e.g. Interfaces with the same root identifier and number and a different suffix letter such as iB1a, iB1b, etc indicate separate instances of the same interface type and definition. Green lines between functions indicate logical internal relationships within the NGN which are not defined. Red lines indicate interconnect interfaces for the common transport capabilities in the bearer plane. Blue lines indicate service level interfaces that sit on top of the associated underlying common transport capabilities.

Call Establishment’ for PSTN/ISDN service between NGNs

Example of Signalling Resilience

Example of SCTP Multi-Path Signalling Resilience

Example of TCP Multi-Path Signalling Resilience

Example of Automatic Alternative Routing to Provide Media Path Resilience

Example of Inter-working of Distributed and Integrated Type Interconnect Solutions

Summary Principles of NICC architecture and its use within NICC  Architecture based on functions and interfaces  Allows different physical implementations  Does not assume or constrain Intra network implementation  Gives a basis for agreeing Interface specifications for signalling, bearer and transport  Gives a basis for agreeing ongoing operational requirements such as testing and management

End