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What Operators need from NGN Standardisation. Stewart Alexander ITU Standards Manager, BT Group. WTSA. Summary. Business drivers for NGN Requirements for NGN Technical view of NGN What standards do we need for NGN? What do we want from ITU?. What’s the Current situation?.
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What Operators need from NGN Standardisation Stewart Alexander ITU Standards Manager, BT Group WTSA
Summary • Business drivers for NGN • Requirements for NGN • Technical view of NGN • What standards do we need for NGN? • What do we want from ITU?
What’s the Current situation? • Telecom winter exaggerating the cost of multiple standards – e.g. multiple networks in mobile • All telcos under pressure to reduce expenditure on standards • Cost of interworking is killing us • More and more uses are global (mobile, WLAN, Internet etc) with more and more users travelling. • Standards must be global • Growing complexity from multiple fora as groups become frustrated with speed of traditional standards bodies • Need for a radical drive to the NGN – speed is essential.
Why do we need an NGN? • Make it easier to create new services • Faster • More people can create services • Make it easier to buy and use services • Give customers greater choice • Make it simpler to deliver and maintain services • Process automation • 30-40% cost reduction
What does it mean? • New services • Open APIs and applications platforms • Mobile enabled • Re-usable components/capabilities • Build on broadband capability • Cost reduction • Not enough to do efficiencies and automation • Radical network convergence to fewer networks and systems carrying more services
Cost Reduction • Efficiencies and automation not enough • need to enable customers and partners in the service management processes • Radical steps required • need closure of legacy networks and systems • Have to include future of PSTN (voice) • More important to converge in access and backhaul than in core • because opex and capex centred there
21st Century Services Vision “A world where all our customers feel empowered and are treated as individuals”
Cost C B Today’s Networks • Built on “service=technology” stove pipes. • Every network service has its own network platform: • FR, ATM, MPLS IP VPN, Internet, PSTN etc. • We want a converged multi-service platform to deliver all services. Internet Frame Relay ATM SDH
~1000 + Voice Switches and Data Cross Connects ~80,000 PCPs in the Access Network ~170 Core Switches (DMSU / NGS) ~100,000 Remote Concs, DLAMS and Data Muxes Logical Nodes Data Centre Today International Networks Internet Peering End Customer ~30,000 Multi- Service Access Devices ~100 Metro Routers ~10 Core Routers Data Centre Begin Fibre to the PCP Logical Nodes Aggregation Service Edge Core 21st Century Network Vision
Provide a common Intelligence Layer Intelligence layer Application layer – Web Services .Net J2EE Intelligence Layer Intelligence Layer Control Accounting Monitor Authentication Presence Authorisation Common Data Model – LDAP interface Flexible user interface Web, DTMF,Voice Interface Protocols – INAP, MGCP, SNMP, CORBA, GMPLS, etc Mediation and Billing Transmission Layer PSTN and Data Internet 3rd party new generation networks backbone networks PSTN Intelligent Service Layer – controlling IP and PSTN - and allowing controlled 3rd party access
Overall Architecture ExternalInterfaces Enterprise Management Commercial & Customer Management Partners & OLOs Selling, Customer & Channel Management Supplier Management Billing Proposition Creation & Handling ICT Contract Handling Trading Gateways Front Office functions Portfolio Management Customers and users Outsourcing Management Business Intelligence Portal Functions Service Management Service Execution Authentication & Authorisation Service Assurance Application Content BT People Profile Directory Knowledge Management & Collaboration Network location Service Fulfillment Application exposure Session control Network Resource Model Finance Presence Mediation & Pricing 3rd party APs Messaging Business Support Service Management agents Connectivity resources Media Resources Personal Comms Devices Resource Management on-demand Computing (application hosting) Network Management Network Engineering Enterprise & Premises Access, Aggregate & Backhaul Metro Core Optics & MPLS Workforce Management & Professional Services Technology Management 21C Network Integration & application development framework
Highest Priority NGN Standards Requirements • Multi-service carrier-scale core • enabled by underlying ‘MPLSv2’ network • 3GPP Architecture • extended to Wi-Fi and fixed Broadband access • Session based QoS • Session Control • extensions to SIP with full multimedia capability • Billing and charging (data interchange billing) between operators • Manageability • commoditised componentised OSS • Security • authentication across networks / operators • Home Gateways/Networks
What do we need to do generally..? • Prioritise. • Position fora, regional bodies and ITU into a consistent approach to lead to global standards – an architecture of standards bodies. • Support the NGN architecture – will require us to merge over traditional boundaries. • Give equal weight to systems and networks
ITU is important to NGN for: • Access Networks – SG15 • Core Networks – SG13 • Optical Networking – SG15 • Spectrum – ITU-R • Numbering & Addressing – SG2 • Signalling for QoS across multiple networks – SG11 • Services and applications – SG16 • Security – SG17 • NGN Focus Group – to get it started and bring it all together
Other Important Bodies for NGN • 3GPP/TISPAN – IMS • ATIS – US carrier requirements • DSL Forum – remote management of CPE • IETF – IPv6, SIP extensions, MPLS, etc • TMF – standardised OSS components • Open Mobile Alliance (OMA) – (Mobile) Applications, DRM • Metro Ethernet Forum (MEF) – role of Ethernet in transport network • IEEE 802.11x – Wi-Fi hotspots
What do we want from ITU? • Global Standards, speedily and efficiently produced How do we get this? • A single ITU-T Study Group for core NGN studies • A managed release program • A co-ordinated ITU-T approach
Conclusions • NGN will only succeed if based on globally standardised components • ITU must work with ETSI, ATIS and other fora to achieve standards for NGN • ITU can provide strategic focus for NGN standards – but must create SG with sufficient critical mass to address NGN issues