Fostering worldwide interoperabilityGeneva, 13-16 July 2009

Home Networking in ETSI

Presenters:Rainer Münch, TC TISPAN

Dominique Roche, TC ATTM

Global Standards Collaboration (GSC) 14

DOCUMENT #: GSC14-GTSC7-18R1

FOR: Presentation

SOURCE: ETSI

AGENDA ITEM: GTSC 4.3

CONTACT(S): Rainer Münch & Dominique Roche

Fostering worldwide interoperability 2Geneva, 13-16 July 2009

Ensuring full and ubiquitous access to new services and life styleHomes, both as single-tenant and multi-tenant premises, are unique with respect to cabling infrastructuresWithin the home, telecommunications services fall into three groups

ICT (also referred to as HBES Class 2): for example, telephone, local area networkBCT (also referred to as HBES Class 3): for example, broadcast television;CCCB (also referred to as HBES Class 1): for example, security alarms, surveillance and door access control, environmental controls

TC ATTM Home networking

Fostering worldwide interoperability 3Geneva, 13-16 July 2009

Support of very high speed (broadband) & multi-service implementation

Efficient very high speed residential physical networksDefinition of standardised approach for the engineering of the building and campus optical access networksDefinition of optimized generic engineering of in-home optical fibre network (plastic optical fibre) Definition of most relevant functional characteristics of components (e.g. connector, cable)

Efficient networksEnergy consumption trends for different FTTx scenariiDefinition of KPIs to enable proper actions and monitoringNew specification series on key performance indicators of Energy efficiency and broadband deployment

TS 105 174 Series: Part 5-1 on Home

TC ATTM Strategic Direction

Fostering worldwide interoperability 4Geneva, 13-16 July 2009

Telecommunications Access and Home Networks including Terminal Equipment and Network Terminating EquipmentCopper, fibre and wireless transmission support in close cooperation with CENELEC TCs 215-205-209Lower layers of in home networks in collaboration with TCs i.e. TISPAN (Core Network Architecture), M2M (Machine to Machine) and ERM (TG28 Short Range Devices)

ATTM re-organization:AT2 as “TIT networks” (Telecoms & IT)AT3 as “Integrated broadband cable and television networks”

TC ATTM Home networking convergent platform

Fostering worldwide interoperability 5Geneva, 13-16 July 2009

Ongoing activity:Robust security, with privacy protectionCompletion of Release-3 protocolsRemote access, including cross-connect of CPNs

Work just starting:Consideration of Energy Management for devices attached to the CPNE2E QoS, or at least remote diagnosticsIntensive discussions with relevant industry forae.g. Home Gateway Initiative

TC TISPAN NGN Network

Fostering worldwide interoperability

Promote international standards for CPNsClarify the mandatory vs. optional featuresDevelop consensus for migration pathsFocus on interop tests and Plugtests

Facilitate adoption of standardsNew activities to list and explain the services possible with Release-3 TISPAN CPN technologiesEnsure interworking with popular devices

Interwork with legacy or future technologiesMulti-access to CPN: fixed-line, UMTS, WiMAX, remote-access, Femto, …Roaming

6Geneva, 13-16 July 2009

TC TISPAN Strategic Direction

Fostering worldwide interoperability 7Geneva, 13-16 July 2009

Next Generation Networks will completely change the network paradigm as the need to deliver ever higher speed services will bring a move towards more distributed electronics in the access networkIncreasing electrical load in customer premises will more than balance any saving actions into the networkSDOs should champion energy efficiency in developing specifications on ICT products and systems in order to deliver multi-serviceSDOs should develop user friendly residential networking guidance based on a sustainable approach

TC ATTM Challenges

Fostering worldwide interoperability 8Geneva, 13-16 July 2009

Completing a "deployable" Release-3 CPNWill it work with appropriate NGN networks?Does it provide the services needed?Can it be built at reasonable cost?Can it be managed in a user-friendly way?

Integrating concepts for testing of CPNsTestability for interop eventsTesting/auditing/maintenance functions for O&M

Adopting or creating interfaces for popular home equipment

e.g. UPnP, DECT, Powerline, NFC?, future Wi-Fi

TC TISPAN Challenges (Technical)

Fostering worldwide interoperability 9Geneva, 13-16 July 2009

Already strongly liaised with GeSI-EE IOCG Standardization Branch

CENELEC TC 215 to support the challenges

TS 105 174-5-1-1 for Plastic Optical Fibre System Specifications for 100 Mbit/s and 1 Gbit/s Development of ENs on efficient data centreEvolution of TS 105 174 Series on efficient broadband deployment and KPIs…

Will welcome new liaisons with any organization or forum in order to support

Energy efficiency Broadband deploymentMulti-service implementation

TC ATTM Next Steps/Actions

EE IOCG

Fostering worldwide interoperability 10Geneva, 13-16 July 2009

Outreach to operators and vendors to input their priorities for security, O&M, etcto make TISPAN CPN the de facto approach

Example fora:

Co-operate with other ETSI TCs and groupsSTQ 324 concerning User DataATTM for end-devices and HGW conceptsEE for energy considerationsSTQ for QoS considerationsITU, ETSI DECT, ETSI PLT, …

TC TISPAN Next Steps/Actions

SmartHouse Roadmap project

DECT

ATTM

PLT

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Supplementary Slides

Fostering worldwide interoperability 12Geneva, 13-16 July 2009

ETSI addresses the specific technology, equipment, installations aspects (and to some extend regulatory) of the physical layer, e.g. of:

Transmission issues of interfaces Frequency management on the non-radio Communication Infrastructures (wired and coaxial)Analogue and digital presented Communication interfaces of balanced wired (twisted pair), Coaxial cable and optical fiber InfrastructuresInterfaces based on new technologies as far as they are relevant for Communication InfrastructuresPoint-to-point and point-to-multipoint radio systems and infrastructures used for the fixed and short range services (core and access networks), covering all equipment aspects including antenna parametersTransmission related aspects of network architecture(s) (including protection issues) Specification of the transmission functions performance, and energy efficiency of the network and of its elements such as transmission paths, path elements, sections, systems, functional entities, antenna, cable and optical fiber

The convergence platform

Fostering worldwide interoperability 13Geneva, 13-16 July 2009

Homes are unique with respect to cabling infrastructures for the following reasons

Represent the largest constituency for broadband servicesLimited or non-existent cabling infrastructures within the homeResidents are either willing to physically move within the home, or install service-specific wireless systemsResidents tend to situate their living space(s) according to the availability of the BCT serviceOngoing development of BCT services and the consequent requirements of the local cabling (HDMI etc) restricts distribution of those services

Home networks, broadband & multi-service

Fostering worldwide interoperability 14Geneva, 13-16 July 2009

Growth of ICT applications within the home and the advent of broadband services allowing

Access to BCT services using ICT applications has failed to encourage large scale installation of home cabling infrastructures as a means of distribution since

Aesthetic considerations have prominence in domestic premises;Refurbishment of the building structures is uncommon;Residents expect temporal flexibility in access to services.

Growth of ICT applications &Advent of broadband services

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On ATTM/AT2 responsibility STF 362 developed the below Series on key performance indicators of Energy efficiency and broadband deployment

TS 105-174-1 Overview, common and generic aspectsTR 105-174-2-1 Operator sitesTS 105-174-2-2 Data centre engineeringTR 105-174-4 Access networksTR 105-174-5-1 Homes (single-tenant) TR 105-174-5-2 Office premises (single-tenant)TS 105-174-5-4 Data centres (Customer)

ETSI STF 362 deliverables

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GeSI-EE IOCG Standardisation Branch

GeSI Standardisation Branch Composition

Standardisation Policy Group

Standardisation Branch Board

Branch Management

Technical Group

Critical Areas management

Sub Areas proposal

agreements Feedback

High Level Strategies

Branch Decision making

Decisions

Technical Strategies

GeSI EE IOCG Standardisation Branch

GeSI Board

EE IOCG