The Broadband for All Cluster in FP6
Paulo de Sousa
1
and Martin Potts
2
1
European Commission (INFSO), Avenue de Beaulieu 29, Office 6/84,
B-1160 Brussels, Belgium
2
Martel GmbH, Dorfstrasse 97,
3073 Bern, Switzerland
Abstract. This paper describes the Broadband For All Cluster, which resides
within the IST (Information Society Technologies) Thematic Area of the EU’s
6
th
Framework Programme. By explaining the topics being addressed by the
projects in the Cluster, it gives a summary of the current trends in broadband
provision in the access and core networks, from the perspective of the major
industrial and network operations organisations throughout Europe. Since there
will be further Calls for projects in this Strategic Objective, it can be a useful
guide towards assessing where important topics have been overlooked.
1 Introduction
Proposals for IST-oriented projects in the EU’s 6
th
Framework Programme (2002 -
2006) were invited to address the following so-called “Strategic Objectives”:
- Broadband For All
To develop the network technologies and architectures allowing a
generalised availability of broadband access to European users, including
those in less developed regions. This is a key enabler to the wider
deployment of the information and knowledge-based society and economy.
- Mobile and Wireless systems beyond 3G
To realise the vision of "optimally connected anywhere, anytime".
Early preparatory work has characterized Systems Beyond 3G as a
horizontal communication model, where different terrestrial access levels
and technologies are combined to complement each other in an optimum
way for different service requirements and radio environments. They may
include the personal level (personal/body area/ad hoc network) the
local/home level (W-LAN, UWB) the cellular level (GPRS, UMTS) the
wider area level (DxB-T, BWA).
The resulting access landscape is complemented by a satellite overlay
network, providing notably a global multicast layer (eg. S-DMB).
- Networked Audiovisual Systems and Home Platforms
Potts M. and De Sousa P. (2004).
The Broadband for All Cluster in FP6.
In Proceedings of the 1st International Workshop on Shaping the Broadband Society, pages 71-81
DOI: 10.5220/0001404100710081
Copyright
c
SciTePress
To develop end-to-end networked audio-visual systems and applications, and
open trusted and interoperable multimedia user platforms and devices,
notably for broadcasting and in-home platforms with full interactivity
capacity.
Whilst these 3 areas are becoming increasingly closely inter-related, this categori-
sation has led to groups (“Clusters”) of manageable size (approx. 20 projects), in
which dissemination and discussion takes place that is always of common interest for
most of the participants.
This paper focuses on the projects and activities in the Broadband for All Cluster.
2 Technology trends
The Broadband For All Cluster is especially relevant for this workshop in so far as
nowadays there can be no information society without broadband infrastructure. The
demand for broadband is being driven by increasingly sophisticated content and ser-
vices (e-business, e-learning, e-health, gaming, …) running on high-speed LANs
connecting a widening variety of office- and entertainment- terminals.
Capacity is generally available in the core networks of developed countries, since
this is being upgraded cost-effectively in-line with demand, thanks to the foresighted
deployment of fibre and DWDM technologies over the last 10 years. The spotlight for
providing users with broadband is therefore directed more onto the access network,
where DSL, CATV, WLAN hot-spots, BFWA, Powerline and fibre access networks
are competing to bring higher bitrates to the end users. As expected, many of the
projects in the Broadband For All Cluster therefore address the access network.
The complexity of service interoperability has also been recognised as a potential
roadblock to the ubiquitous availability of information to the general public. Whilst
the Networked Audiovisual Systems and Home Platforms Cluster examines the net-
working - and interworking - of domestic equipment with the telecommunications
network, the Broadband For All Cluster includes projects that are working to ensure
that multiple services can be supported independent of the underlying networks.
“Ambient” networks and services are also being defined, whereby - through auto-
mated procedures - the complexity of network operations (and handovers) can be
hidden from the user, thereby enabling the development of attractive and exciting
new value-added services. If successful, this will further drive the demand for band-
width in the access and core networks, and generate new sources of revenue.
An overview of the projects in the Broadband For All Cluster serves to highlight
the trends in access and core network technologies for enabling the delivery of end-
to-end services and applications with appropriate QoS, security, etc., ambient net-
works and services.
Fig. 1 below shows the technologies that are addressed, and also the issues covered
within the Cluster that have to be supported by - or impact upon - the networks, but
which are technology-independent:
70
Optical Core
Network Technologies
Broadband Access
Technologies
Fibre, GMPLS, optical
control
FTTx, PLC, Copper,
Cable, WLAN, FWA,
HAPs, Satellite
Routers, Switches,
BRAS, Aggregators
OTNs, OADMs
Convergence and Interoperability: NGI Protocols, IP Everywhere (IP transport,
control & routing)
Network- and Service- Management (includes QoS, Security)
Monitoring and Measurement
Economics of the Internet
Optical Core
Network Technologies
Broadband Access
Technologies
Optical Core
Network Technologies
Broadband Access
Technologies
Fibre, GMPLS, optical
control
FTTx, PLC, Copper,
Cable, WLAN, FWA,
HAPs, Satellite
Fibre, GMPLS, optical
control
FTTx, PLC, Copper,
Cable, WLAN, FWA,
HAPs, Satellite
Routers, Switches,
BRAS, Aggregators
OTNs, OADMs
Routers, Switches,
BRAS, Aggregators
OTNs, OADMs
Convergence and Interoperability: NGI Protocols, IP Everywhere (IP transport,
control & routing)
Network- and Service- Management (includes QoS, Security)
Monitoring and Measurement
Economics of the Internet
Convergence and Interoperability: NGI Protocols, IP Everywhere (IP transport,
control & routing)
Network- and Service- Management (includes QoS, Security)
Monitoring and Measurement
Economics of the Internet
Fig. 1. Technologies addressed (vertical), and issues (horizontal) that have to be supported by -
or impact upon - the networks
3 The projects
Table 1. Projects from the 1
st
Call
1
that participate in the Broadband For All Cluster
Short Name Type of
Project
2
Aspects Addressed
ACE NoE Sophisticated antennas are a strategic multi-application technology
for emerging communications, navigation and sensing services for
the Information Society, for aeronautics and space, transport, secu-
rity, tele-medicine, etc. Involving thousand of specialists, European
antenna engineering is currently scattered over 150 entities, with
some €200M of R&D expenditure yearly. ACE will restructure this
fragmented European R&D, reducing duplications and boosting
excellence and competitiveness in key areas. 40 leading institutions
take part in the project.
1
The 1
st
Call for Proposals was issued on 17
th
December 2002. The deadline for submitting
proposals was 24
th
April 2003. The EC budget was €60M. Most of the projects started on 1
st
January 2004.
2
IP = Integrated Project (new instrument in FP6)
NoE = Network of Excellence (new instrument in FP6)
STREP = Specific Targeted Research Project (similar to FP5 RTD projects)
SSA = Specific Support Action (similar to FP5 Accompanying Measures)
CA = Co-ordination Action (replaces the Concerted Actions and Thematic Networks of FP5)
71
ATHENA STREP ATHENA develops an approach for the digital switchover that
comprises the use of the DVB stream for interconnecting NGN
nodes. The solution uses regenerative configurations to enable the
realisation of a virtual common Ethernet backbone that can be
exploited by 3G/UMTS and Beyond 3G Systems operators and
broadcasters, as well as enabling broadband access for all.
Such a configuration enables multi-service capability, as the
regenerative DVB-T creates a single access network physical
infrastructure, shared by multiple services (ie. TV programmes,
interactive multimedia services, Internet applications, etc.).
Validation will be made through a trial in a medium-sized city,
including the implementation, testing and validation of a spectrum
efficient real time dynamic management of the available bandwidth,
for supporting the variety of heterogeneous bit rate services, and a
traffic policy mechanism, for UMTS users on the move, for the
seamless reception of IP data when transitioning from one UHF
channel (DVB-T stream) to another.
BREAD CA BREAD considers a multi-disciplinary approach regarding the
realisation of the 'broadband for all' concept within Europe.
Societal, economic, regulatory and technological issues will be
addressed, sharing views and knowledge, developing new strategies
and good practices.
The study will include regional "success stories" of actual
deployments and the influence of government stimulus for
accelerating the early rollout of broadband services. The societal
aspects of introducing broadband access and sustainable economic
business models for this will be taken into account.
One “Broadband Summit” conference and exhibition will be
organised per year.
BROADWAN STREP BROADWAN looks at all the (hybrid) solutions for broadband
access networks for fixed and nomadic users within a global
coverage architecture. New adaptive equipment and automatic
network planning and management software is included.
CAPANINA STREP CAPANINA examines the broadband capability that can be
achieved from aerial platforms for the delivery of cost effective,
viable alternatives to cable and satellite, with the potential to reach
rural, urban and travelling users.
Examples of High Altitude Platforms include airships and solar
powered aeroplanes operating at altitudes of around 20km. Data
rates of up to 120Mbps will be delivered to fixed and moving users
within a 60km area.
Free-space optic and mm-wave technologies will be used for
backbone and interplatform links providing seamless integration
with existing infrastructure.
COCOMBINE SSA COCOMBINE focuses on collecting the knowledge and developing
the tools to understand the related markets for long distance transit,
public peering and broadband access. It also focuses on the interplay
between infrastructure and contents, which defines the broadband
diffusion modalities across Europe. Partners will monitor the
evolution of the Internet architecture using data from online transit
markets and from Internet Exchange Points.
72
DIADEM
FIREWALL
STREP DIADEM FIREWALL develops a novel and comprehensive
security solution for secure broadband services, by combining high-
speed packet processing, algorithms for intrusion detection, and
policy-based techniques for automated configuration and decision-
handling. Elements include:
- provider-controlled edge devices, representing a new generation
of distributed high-speed broadband firewalls with policy-based
control
- enhanced techniques capable of detecting a wide range of
security violations, in particular DDOS
- techniques for responding intelligently to security violations.
DAIDALOS STREP DAIDALOS concerns the creation of a user-centred and
manageable communication infrastructure for the future (with the
focus on an integrated mobile environment). DIADALOS will:
- design, prototype and validate infrastructure and components for
the efficient distribution of services over diverse network
technologies beyond 3G
- integrate complementary network technologies to provide
pervasive and user-centred access to services
- develop an optimized signalling system for communication and
management support
- demonstrate the results of the work through a strong focus on
user-centered and scenario-based development of technology.
E-PHOTON/
One
NoE This Network of Excellence will integrate and focus the know-how
available in Europe on optical communications.
The main technical focus of the project is to show which are the
potential advantages of optical technologies in telecommunication
networks with respect to electronic technologies.
EUQOS IP EUQOS will experiment with, and deploy, a solution for the out-
standing issues presently associated with the delivery of end-to-end
QoS service across heterogeneous networks. These issues are re-
lated to the heterogeneity of the underlying network technologies,
and the resource management equipment deployed (even for com-
mon types of network technology).
The EUQOS system is based on a model that accepts the varied and
proprietary nature of resource management mechanisms deployed
by network operators and ISPs; necessitating only a common inter-
face for the communication with end-users and peer domains. It
exploits the growing popularity of SIP (or SIP-like) schemes.
Euro NGI NoE EuroNGI focuses on Next Generation Internet design and engineer-
ing. The Next Generation Internet will offer multi-service/
multimedia, mobility, convergence (services and fixed-mobile),
QoS and variable connectivity as the norm. Future high-speed wire-
line and wireless access technologies will provide instant high
bandwidth connectivity, which makes it difficult to forecast traffic
and thus to apply existing traffic engineering methods. The
telecommunications environment will remain one deploying
multiple technologies, and therefore new design, planning,
dimensioning and management principles are needed.
73
FLEXINET STREP FLEXINET develops a value-added complementary network and
gateways architecture for enhanced access network services and
applications. It will offer cross-connect switching/routing and ad-
vanced services and data management functions at network access
points. The focus is on UMTS and WLAN infrastructures. The goal
is to:
- relieve core networks from data handling and signalling overhead
- accelerate the introduction of new services
- broaden the current business models for service provisioning.
GANDALF STREP
GANDALF will demonstrate the simultaneous provision of Gbps
data rates to wireline and wireless access nodes, by employing a
novel optical feeder concept. The proposed optical feeder employs a
dual-drive Mach-Zehnder modulator at the central station, operated
in such a way that is possible to recover simultaneously the
transmitted broadband data directly at base-band or intermediate
frequency (BB/IF) and modulated onto an RF carrier. This
architecture allows therefore to remotely feed heterogeneous
(wireline and wireless) access nodes with very interesting features
when compared to previous approaches based in fibre-radio
techniques. Cost savings are anticipated.
LASAGNE STREP
All-optical label swapping is a type of optical packet switching that
is intended to solve the potential mismatch between fibre capacity
and router packet forwarding capacity. To date packet label
processing has been carried out at the electrical domain, but in order
to achieve full transparency at the optical node, it is necessary to
perform this functionality at the optical domain. Likewise, the node
optical layer needs to implement the required "intelligence" to look
up the routing table and forward the packets.
MESCAL RTD
(FP5)
MESCAL proposes and validates scalable, incremental solutions
that enable the flexible deployment and delivery of inter-domain
QoS across the multi-provider commercial Internet for uni- and
multicast services, based on IPv4 and IPv6 infrastructures. This
involves advancing the state-of-the-art in service management,
traffic engineering and routing by developing templates, protocols
and algorithms for establishing SLSs between ISPs and their
customers and peers; and a scalable solution for inter-domain traffic
engineering based on enhancements to the existing inter-domain
routing protocol and associated route selection logic. Architectures,
algorithms and protocols will be validated through simulations and
testbed experiments.
MOME CA
MOME is a Cluster providing suppport for knowledge and tool
exchange and for the co-ordination of activities in the field of IP
monitoring and measurement between IST projects and other
European initiatives. Collected data will be made accessible for the
whole community over the Internet. Monitoring and measurement
related contributions to standardisation bodies (eg. IETF) from the
participating projects will be co-ordinated by MOME. The activities
will be supported by the organisation of public workshops and
conferences.
74
MUSE IP MUSE will develop a low cost, full service access and edge
network, which enables the ubiquitous delivery of broadband
services to every European citizen. It integrates studies in:
- access and edge network architectures and platforms
- first mile solutions (DSL, optical access, fixed wireless access)
- interworking of the access network with home gateway and local
networks
- techno-economics.
NOBEL IP NOBEL focuses on developing an appropriate optical core/metro
network infrastructure to aggregate end-user traffic and ensure an
end-to-end transport with the desired level of quality. It will carry
out analyses, feasibility studies and experimental validations of
innovative network solutions and technologies for intelligent and
flexible optical networks. It includes strategies for the end-to-end
management and control of intra/inter-domain connections in multi-
layers networks (eg. IP over Optics).
OBAN STREP OBAN (Open Broadband Access Networks) plans to establish a
high performance broadband mobile network, based upon inexpen-
sive WLAN technology and unused capacity in the fixed access
networks. Issues addressed are:
- mobility, security and QoS as a group of related issues in hetero-
geneous networks, where seamless and fast handover, scalable
services, personalisation, ... are all important
- antenna technologies (MIMO, beamforming, ...)
- network coverage and capacity analyses and estimation
- commercial and regulatory aspects (opening for new services and
business opportunities).
OPERA IP OPERA (Open PLC European Research Alliance) has the strategic
objective to offer low-cost broadband access service to ALL
European citizens using the most ubiquitous infrastructure: the
electricity network. Efforts will be focused on obtaining:
- an improved performance in transmission speed
- ready- to-sell and low-cost products
- a complete system specification
- a unique international regulation
- interoperability with current back-haul and in-house technologies
- a higher market share.
SATLIFE STREP
SATLIFE (Satellite Access Technologies: Leading Improvements
For Europe) will be the first R&D satellite project in the world with
a multimedia on-board processor, the (ESA) AMERHIS system,
based on the satellite standards DVB-RCS and DVB-S.
SATLIFE responds to the imperative need of facilitating the
development of broadband for all by means of significantly
enhancing the state-of-the-art of DVB-RCS satellite standard
solutions, with the focus on the integration with other terrestrial
alternatives in the implementation of the Information Society.
75
SEINIT STREP
A secure information infrastructure is, after widespread availability
of broadband access, the second enabler of a broader access to
Information Technology. SEINIT defines security models and
policies to address the new issues of the pervasive computing world.
SEINIT develops a trusted and dependable security framework,
working across multiple devices and, heterogeneous networks,
being organisation-independent and centred around the end-user.
SEINIT delivers guidelines and best practices manuals that facilitate
the spreading of the technology-oriented results and the acceptance
of the new approach.
U-BROAD STREP The goal of U-BROAD is to transmit Ethernet at 100Mbps over
local loop copper pairs for broadband multiservice access. This
"Ultra High Speed DSL" will be used for connecting legacy, video
and next generation services to existing and future infrastructure.
The project will develop new communications algorithms
and signal processing techniques. The main benefits are
reducing expenditures and achieving a fast ROI, by:
leveraging the existing access infrastructure
- supporting future, ultra high-speed technologies
- providing a variety of services, such as data, voice and video on
the same access lines.
The complementary coverage of these projects can be seen in the following figure:
Optical Core
Network Technologies
Broadband Access
Technologies
NOBEL (IP)
LASAGNE
Monitoring and Measurement
Economics of the Internet
Network- and Service- Management
Convergence and Interoperability
OPERA (IP)
MUSE (IP)
ATHENA
BROADWAN
U-BROAD
OBAN
CAPANINA
DIADEM
BREAD (CA)
MOME (CA)
COCOMBINE (SSA)
EURO-NGI (NoE),
ACE (NoE) E-PHOTON (NoE),
SATLIFE, FLEXINET,
GANDALF
DAIDALOS, EUQOS
MESCAL, SEINIT
Optical Core
Network Technologies
Broadband Access
Technologies
Optical Core
Network Technologies
Broadband Access
Technologies
NOBEL (IP)
LASAGNE
NOBEL (IP)
LASAGNE
Monitoring and Measurement
Economics of the Internet
Network- and Service- Management
Convergence and Interoperability
Monitoring and Measurement
Economics of the Internet
Network- and Service- Management
Convergence and Interoperability
OPERA (IP)
MUSE (IP)
ATHENA
BROADWAN
U-BROAD
OBAN
CAPANINA
DIADEM
BREAD (CA)BREAD (CA)
MOME (CA)
COCOMBINE (SSA)
EURO-NGI (NoE),
ACE (NoE) E-PHOTON (NoE),
SATLIFE, FLEXINET,
GANDALF
DAIDALOS, EUQOS
MESCAL, SEINIT
Fig. 2. The mapping of Broadband For All projects to the key issues for broadband deployment
76
Issues addressed in the Broadband for All Cluster are:
Technology and Applications:
- Technology trends:
overview of leading technologies for Home Networks, Access Networks and
Core Networks
- Convergence and interoperability:
Physical Layer
Network Layer
- Open Issues:
relationship with Next Generation Network activities in ETSI, ITU-T, where
the separation of the roles of network providers, service providers and ser-
vice creators is encouraged
security
new IP protocols
end-to-end QoS
Business and Economic:
- Technological considerations:
infrastructure costs
price of mobility
- cost benefits of scale (convergence) vs niche solutions
- cost of bandwidth vs processing vs memory
- reducing the “digital divide”
- new business models
Regulatory and legal:
Fig. 3. Political aspects that are closely-related to the work of the Broadband for All
Cluster
Social and Cultural:
- an Information Society for all:
- educating governments and society in general (developed and developing na-
tions)
- promoting broadband content, eGovernment, eHealth, eLearning, eBusiness
- collectively encouraging the availability of broadband access at affordable prices
(“digital inclusion”)
Lisbon
Strategy
“EU: Largest
knowledge-based
economy by 2010”
Broadband access,
e-business,
e-government,
e-health, ...
Other policies
Other policies
Single Market, Single
Currency, Security of
Europeans, Sustainable
Development, ...
ERA: European
Research Area
ERA: European
Research Area
FP6, Eureka, COST,
National Programmes
… towards a
single market
for research
Enlargement
Enlargement
Candidate
countries are
full partners
in FP6
Lisbon
Strategy
“EU: Largest
knowledge-based
economy by 2010”
Broadband access,
e-business,
e-government,
e-health, ...
Other policies
Other policies
Single Market, Single
Currency, Security of
Europeans, Sustainable
Development, ...
ERA: European
Research Area
ERA: European
Research Area
FP6, Eureka, COST,
National Programmes
… towards a
single market
for research
Enlargement
Enlargement
Candidate
countries are
full partners
in FP6
77
- informing on current broadband status, developments both regional & worldwide
and the expected evolution (“Roadmap")
- raising awareness on information security and privacy
- fostering links to (eg.) Russia, Brazil, Japan
Fig. 4. The scope of networking environments covered by the Broadband For All projects
3 Conclusions
This paper has described the Broadband For All Cluster, which resides within the IST
(Information Society Technologies) Thematic Area of the EU’s 6
th
Framework Pro-
gramme.
By explaining the topics being addressed by the projects in the Cluster, it has given
a summary of the current trends in broadband provision in the access and core net-
works, from the perspective of the major manufacturers and network operators
throughout Europe.
Since there will be further Calls for projects in this Strategic Objective, it can also
be a useful guide towards assessing where important topics have been overlooked.
The added-value of having such a Cluster of related projects is to reach a consen-
sus on broadband evolution that has sufficient critical mass of support to guarantee its
standardization and deployment. This avoids spending effort on technologies and
trends that are likely to be unsuccessful in the mass market. Other benefits include the
sharing of information on topics such as: standards, events, press releases, national
initiatives, world news, … , the opportunity to share testbeds and make joint experi-
ments, organize joint workshops and conferences, etc., and increasing the visibility of
this part of the FP6 Programme.
BS
BS
BS
PS
VDSL
Passive
Splitter
Access Network
Access Network
(D)WDM, IP/MPLS
(E)PON
FTTB
DSL
UMTS
Macro Cells
Private customers
& SOHOs
High density
housing estates
with large blocks
of apartments
•Private
customers &
SOHOs
Low density
housing estates
with small
(single family)
houses
FTTC
Point-to-Point
Link
Metro Network
Metro Network
λλ
λλ
λλ
λλ λλ
λλ
λλ
λλ
DWDM
IP/MPLS, MPlS
10/40Gbps/ λ
ring / meshed
Global / WAN
Global / WAN
10/40Gbps/ λ
meshed
10Gbps/λ downstream
up to 2.5 Gbps/λ upstream
ONT
ONT
BSONT
BSONT
10 GE
Public Area
WLAN (IEEE 802.11x)
W
L
A
N
/
U
M
T
S
R
o
a
m
i
n
g
Large
Large
Enterprises
Enterprises
Customer
Customer
Premises
Premises
Satellite and HAPs
BSBSBS
BSBSBS
BSBSBS
PS
VDSL
Passive
Splitter
Access Network
Access Network
(D)WDM, IP/MPLS
(E)PON
FTTB
DSL
UMTS
Macro Cells
Private customers
& SOHOs
High density
housing estates
with large blocks
of apartments
•Private
customers &
SOHOs
Low density
housing estates
with small
(single family)
houses
FTTC
Point-to-Point
Link
Metro Network
Metro Network
λλλλ
λλλλ
λλλλ
λλλλ λλλλ
λλλλ
λλλλ
λλλλ
DWDM
IP/MPLS, MPlS
10/40Gbps/ λ
ring / meshed
Global / WAN
Global / WAN
10/40Gbps/ λ
meshed
10Gbps/λ downstream
up to 2.5 Gbps/λ upstream
ONTONT
ONT ONT
BSONT BSONT
BSONT BSONT
10 GE
Public Area
WLAN (IEEE 802.11x)
W
L
A
N
/
U
M
T
S
R
o
a
m
i
n
g
Large
Large
Enterprises
Enterprises
Customer
Customer
Premises
Premises
Satellite and HAPs
78