Global Standards Collaboration (GSC) 14

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Global Standards Collaboration (GSC) 14
DOCUMENT #:
GSC14-GTSC7-18R1
FOR:
Presentation
SOURCE:
ETSI
AGENDA ITEM:
GTSC 4.3
CONTACT(S):
Rainer Münch & Dominique Roche
Home Networking in ETSI
Presenters:
Rainer Münch, TC TISPAN
Dominique Roche, TC ATTM
Geneva, 13-16 July 2009
Fostering worldwide interoperability
TC ATTM Home networking
Ensuring full and ubiquitous access to new services
and life style
Homes, both as single-tenant and multi-tenant
premises, are unique with respect to cabling
infrastructures
Within the home, telecommunications services fall
into three groups
ICT (also referred to as HBES Class 2): for example,
telephone, local area network
BCT (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
Geneva, 13-16 July 2009
Fostering worldwide interoperability
2
TC ATTM Strategic Direction
Support of very high speed (broadband) & multiservice implementation
Efficient very high speed residential physical networks
Definition of standardised approach for the engineering of
the building and campus optical access networks
Definition 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 networks
Energy consumption trends for different FTTx scenarii
Definition of KPIs to enable proper actions and monitoring
New specification series on key performance indicators of
Energy efficiency and broadband deployment
TS 105 174 Series: Part 5-1 on Home
Geneva, 13-16 July 2009
Fostering worldwide interoperability
3
TC ATTM Home networking
convergent platform
Telecommunications Access and Home Networks
including Terminal Equipment and Network
Terminating Equipment
Copper, fibre and wireless transmission support in
close cooperation with CENELEC TCs 215-205-209
Lower 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”
Geneva, 13-16 July 2009
Fostering worldwide interoperability
4
TC TISPAN
NGN Network
Ongoing activity:
Robust security, with privacy protection
Completion of Release-3 protocols
Remote access, including cross-connect of CPNs
Work just starting:
Consideration of Energy Management
for devices attached to the CPN
E2E QoS, or at least remote diagnostics
Intensive discussions with relevant industry fora
e.g. Home Gateway Initiative
Geneva, 13-16 July 2009
Fostering worldwide interoperability
5
TC TISPAN Strategic Direction
Promote international standards for CPNs
Clarify the mandatory vs. optional features
Develop consensus for migration paths
Focus on interop tests and Plugtests
Facilitate adoption of standards
New activities to list and explain the services
possible with Release-3 TISPAN CPN technologies
Ensure interworking with popular devices
Interwork with legacy or future technologies
Multi-access to CPN: fixed-line, UMTS, WiMAX,
remote-access, Femto, …
Roaming
Geneva, 13-16 July 2009
Fostering worldwide interoperability
6
TC ATTM Challenges
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
network
Increasing electrical load in customer premises
will more than balance any saving actions into
the network
SDOs should champion energy efficiency in
developing specifications on ICT products and
systems in order to deliver multi-service
SDOs should develop user friendly residential
networking guidance based on a sustainable
approach
Geneva, 13-16 July 2009
Fostering worldwide interoperability
7
TC TISPAN Challenges (Technical)
Completing a "deployable" Release-3 CPN
Will 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 CPNs
Testability for interop events
Testing/auditing/maintenance functions for O&M
Adopting or creating interfaces for popular
home equipment
e.g. UPnP, DECT, Powerline, NFC?, future Wi-Fi
Geneva, 13-16 July 2009
Fostering worldwide interoperability
8
TC ATTM Next Steps/Actions
Already strongly liaised with
GeSI-EE IOCG Standardization Branch
CENELEC TC 215
to support the challenges
EE IOCG
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 centre
Evolution 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 deployment
Multi-service implementation
Geneva, 13-16 July 2009
Fostering worldwide interoperability
9
TC TISPAN Next Steps/Actions
Outreach to operators and vendors to
input their priorities for security, O&M, etc
to make TISPAN CPN the de facto approach
Example fora:
SmartHouse
Roadmap project
Co-operate with other ETSI TCs and groups
STQ 324 concerning User Data
ATTM for end-devices and HGW concepts
EE for energy considerations
STQ for QoS considerations
ITU, ETSI DECT, ETSI PLT, …
DECT
Geneva, 13-16 July 2009
ATTM
PLT
Fostering worldwide interoperability
10
Supplementary Slides
Geneva, 13-16 July 2009
Fostering worldwide interoperability
11
The convergence platform
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 Infrastructures
Interfaces based on new technologies as far as they are relevant for
Communication Infrastructures
Point-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
parameters
Transmission 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
Geneva, 13-16 July 2009
Fostering worldwide interoperability
12
Home networks, broadband
& multi-service
Homes are unique with respect to cabling
infrastructures for the following reasons
Represent the largest constituency for broadband services
Limited or non-existent cabling infrastructures within the
home
Residents are either willing to physically move within the
home, or install service-specific wireless systems
Residents tend to situate their living space(s) according to
the availability of the BCT service
Ongoing development of BCT services and the consequent
requirements of the local cabling (HDMI etc) restricts
distribution of those services
Geneva, 13-16 July 2009
Fostering worldwide interoperability
13
Growth of ICT applications &
Advent of broadband services
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.
Geneva, 13-16 July 2009
Fostering worldwide interoperability
14
ETSI STF 362 deliverables
On ATTM/AT2 responsibility STF 362
developed the below Series on key
performance indicators of Energy efficiency
and broadband deployment
TS 105-174-1
generic aspects
TR 105-174-2-1
TS 105-174-2-2
TR 105-174-4
TR 105-174-5-1
TR 105-174-5-2
TS 105-174-5-4
Geneva, 13-16 July 2009
Overview, common and
Operator sites
Data centre engineering
Access networks
Homes (single-tenant)
Office premises (single-tenant)
Data centres (Customer)
Fostering worldwide interoperability
15
GeSI-EE IOCG Standardisation Branch
GeSI Standardisation
Branch Composition
GeSI Board
GeSI EE IOCG
Standardisation Branch
Branch Management
EE IOCG
Standardisation
Branch Board
Branch
Decision
making
Standardisation Policy
Group
Critical Areas
management
Decisions
High Level
Strategies
Technical
Strategies
Geneva, 13-16 July 2009
Feedback
Sub Areas
proposal
agreements
Technical Group
Fostering worldwide interoperability
16
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