This document is an excerpt from the EUR-Lex website
Document 52012DC0501
COMMUNICATION FROM THE COMMISSION TO THE COUNCIL AND THE EUROPEAN PARLIAMENT Research and innovation for Europe's future mobility_Developing a European transport-technology strategy
COMMUNICATION FROM THE COMMISSION TO THE COUNCIL AND THE EUROPEAN PARLIAMENT Research and innovation for Europe's future mobility_Developing a European transport-technology strategy
COMMUNICATION FROM THE COMMISSION TO THE COUNCIL AND THE EUROPEAN PARLIAMENT Research and innovation for Europe's future mobility_Developing a European transport-technology strategy
/* COM/2012/0501 final */
COMMUNICATION FROM THE COMMISSION TO THE COUNCIL AND THE EUROPEAN PARLIAMENT Research and innovation for Europe's future mobility_Developing a European transport-technology strategy /* COM/2012/0501 final */
TABLE OF CONTENTS 1........... Research and innovation in
support of transport policy..................................................... 3 2........... Unleashing the untapped
innovation potential of the European transport sector.................. 3 3........... The vision for future European
transport and mobility....................................................... 5 3.1........ User-oriented integrated
transport................................................................................... 5 3.2........ Sustainable long-distance,
intercity and urban transport.................................................... 6 4........... Strengthening Europe’s transport
research and innovation system..................................... 6 5........... Initiatives to improve the
innovation capacity of the transport sector................................. 7 5.1........ Making transport research and
innovation more focused.................................................. 8 5.2........ Better aligning efforts...................................................................................................... 9 5.3........ Beyond the comfort zone: breaking
through technology lock-in........................................ 9 5.4........ Efficient deployment of
innovative solutions.................................................................... 10 6........... The opportunities and challenges
of transport-technology deployment............................ 11 7........... Taking the work forward.............................................................................................. 11 ANNEX: Research and innovation areas,
priority fields, and their policy relevance....................... 13 1. Research
and innovation in support of transport policy The 2011 White
Paper on Transport[1] makes the case for transforming the European
transport system into a sustainable and competitive system that will further
improve mobility and continue to support economic growth and employment. It
sets ambitious objectives for reducing Europe’s dependence on imported oil,
improving the environment, reducing accidents and sharply cutting greenhouse-gas
emissions. These objectives have to be seen in the context of a continuous
growth in transport demand, differences in the evolution of transport modes,
demographic changes and a dwindling investment capacity of public authorities. Incremental changes will not be enough to
confront the challenges facing Europe and its transport sector. Instead, governments
and the transport sector at large must break away from conventional thinking.
New ideas, pioneering strategies, and entrepreneurship are needed to respond to
the new reality. What is at stake is not only the viability of the European
transport system but also, given transport’s impact on economic growth and job
creation potential, the achievement of a smart, sustainable and inclusive
European economy, as outlined in Europe 2020[2]. It is therefore essential that Europe’s
research and innovation capacities are mobilised to support transport policy
objectives and societal goals. The White Paper proposes to set up a ‘Single
European Transport Area’ to serve the 500 million citizens in the internal
market. The size of this market will allow for the large-scale testing of a
diversity of innovative technologies and services, reaping scale and scope
economies and creating strong home markets for Europe’s globally operating
transport industries. This approach interlinks innovation with the other three
dimensions of the White Paper: the internal market, infrastructure development
and international cooperation. In this Communication, the Commission
summarises the results of a first stocktaking of research and innovation in the
EU transport sector. It reviews the shortcomings of Europe’s transport
innovation system and presents initial proposals on how to tackle them. The Communication will be the starting
point for the elaboration of a European strategic transport-technology plan,
which will effectively be the White Paper’s research and innovation pillar. The
aim is to ensure a coherent approach across various funding sources for
research and innovation in transport for the next financial programming period
and beyond. This plan will outline the priority fields of greatest relevance to
research and innovation, address the efficiency of the innovation chain and
propose specific actions to overcome barriers to deployment. 2. Unleashing
the untapped innovation potential of the European transport sector Transport services and
the manufacturing industry contribute significantly to Europe’s
competitiveness. The EU transport services and storage sector, including postal
and courier activities, provides 5.1 % of total value added and 5.0 %
of total employment (around 11 million persons
employed). If the manufacturing of transport
equipment, trade in and the repairing of motor vehicles and motorcycles are
included, transport comprises 7.9 % of value added and 8.2 % of
employment, or 18 million persons. Many SMEs in
the transport-manufacturing sector invest heavily in research and development
(R&D). The transport sector is faced with a
growing number of global competitors who are keen to innovate and invest. In
today’s fast-evolving world, Europe cannot afford to lag behind and its
businesses must be able to absorb innovative technologies and business models
that will maintain Europe’s position as world leader in transport. An analysis of the innovation capacities of
the transport sector[3]
suggests that in 2008, corporate transport R&D investments by EU-based
companies amounted to more than € 39 billion[4]. This makes transport the
largest industrial R&D-investing sector in the EU. A further € 4.2
billion was invested by Member States and the EU. EU-based companies account
for more than 40 % of worldwide industrial R&D investments related to
transport, ahead of Japanese and US-based companies, which each account for
about one quarter. Compared to the private sector and Member
States, the EU’s current investment in transport research and innovation is
modest in monetary terms but its leverage is high. It provided about € 600
million per year in the 7th Framework Programme for research,
technological development and demonstration activities (FP7). Funding from the Trans-European Transport
Network programme, Cohesion Fund and European Regional Development Fund (ERDF)
supports market uptake and deployment. The EU also fulfils an important role of
coordination through a variety of instruments and partnerships, such as
European Technology Platforms and Joint Technology Initiatives[5], and is a forerunner in
proposing broad political commitments and regulatory requirements. So far, in FP7, the Marie Curie Actions have awarded €43.5 million
to transport-related research, providing
attractive career development opportunities to researchers. In terms of innovation capacity, transport
comprises highly heterogeneous sub-sectors, each exposed to different market
pressures, to different drivers for innovation and user requirements. In some
sub-sectors, there is a mismatch between the market players that are active in
developing solutions and those that are active in deploying them. Other
specificities are the different institutional set-ups of transport policy-making
across Member States, and their diverging transport research, innovation and
deployment priorities. As a result, Europe does not fully exploit the benefits
that could be gained from a better alignment of transport research and
innovation efforts among Member States or within different transport
industries. A true European Research and Innovation Area for transport is still
to be put in place. So far, the focus of EU-funded research and
innovation activities has largely been on research and less on the
demonstration, market uptake and full deployment of new solutions, although
full-cycle commitments exist in cases such as ERTMS[6], SESAR[7] or Galileo[8]. To unleash the transport sector’s
full innovation potential and address the challenges outlined above, the
Commission proposes a new approach. A diversified portfolio of public and
private sources of finance will be needed, including new financial instruments
to increase the leverage of public budgets and a further move towards the ‘user
pays’ principle. 3. The
vision for future European transport and mobility A vision of how European transport might
develop can usefully serve as a basis for reflection on research and innovation
and on the solutions that are necessary to support the White Paper’s
objectives. It is based on the analysis[9]
that underpinned the White Paper on Transport and a Scientific Assessment of
Strategic Transport Technologies[10]. The vision outlined below has to take into
account the anticipated evolution of the European transport-manufacturing
industry. Our industry will continue its shift from a cost-based competitive
advantage to one based on high value-added, linked to innovation in the
conception, production and operation of complex systems and services with lower
carbon content. This will support employment and growth. The introduction of
new materials and production processes will bring new technology partners into
the transport-manufacturing sector. Together with stronger cross-fertilisation
between the transport modes, this will strengthen the innovative character of
the sector, yield greener products, and strengthen the value of the European
label for high quality products and services. 3.1. User-oriented
integrated transport In the future, a stronger interaction
between transport, energy and information and communication technologies and
networks will lead to improvements in environmental performance and resource
efficiency. Transport will see a shift towards mobility largely based on the
use of alternative fuels, sustainable energy sources and greater use of
energy-efficient and environmentally friendly means of transport. Alternative
propulsion systems and smart communication technologies will be at the heart of
a new generation of clean and ‘connected’ vehicles. The transport system will become fully
integrated, and intermodal, allowing travellers and freight to switch
seamlessly between modes and across borders. Growing end-user demand coupled
with further development of the internal market will bring new services, higher
reliability and more flexibility for passengers and cargo owners. All major
airports and seaports will be connected to the railway network. This will be
supported by fully intermodal information, reservation and payment systems and
services. Intermodal terminals and platforms for passenger and freight will be ‘smartly’
designed and endowed with advanced equipment, for example to facilitate
seamless freight transhipment. New approaches in tracking, tracing and
management of freight will result in highly efficient, affordable and paperless
logistics services with a lower carbon footprint. Goods will be delivered
within guaranteed delivery times. In the transport safety and security domains,
technology will help to provide a response to society’s demands for ‘zero-casualties’
and ‘total security’ visions. In the medium term, a new architecture for
a user-oriented European transport management, information and payment system,
based on state-of-the-art positioning, communication and monitoring technology,
will be implemented. Over the shorter term, existing modal management and
information systems will be further improved, deployed and, whenever
appropriate, extended with interfaces to other modes allowing for seamless
travel and logistics services. Transport infrastructure will change.
Modern infrastructure will increasingly incorporate new components which make
it smart (intelligent, ICT-enabled and automated), green (new light and
recyclable materials) and intermodal (automated terminals, hubs, and
equipment). It will integrate the provision of alternative, low carbon fuels
and innovative management and operation systems. The trans-European transport
core-network will be an important showcase in this context. New infrastructure
will be characterised by climate-resilience, shorter downtime and low
maintenance costs. 3.2. Sustainable
long-distance, intercity and urban transport New generations of clean, safe and quiet
road vehicles, aircraft, vessels and trains will replace the means of transport
that we currently use. However, the lifetimes of aircraft, ships and trains are
long, which means that — save for retrofitting — the benefits will emerge only
slowly even if operational and technical improvements will be implemented
sooner. Future aircraft and vessels, combined with a paradigm shift in
organising traffic management, will bring major environmental benefits and
efficiency gains to a sector which will continue to see a strong market growth. Medium-distance waterborne and rail
transport will win passenger and freight markets by using newly developed,
dedicated means of transport. Greening the supply chain will also trigger a
modal shift of longer-distance freight towards waterborne and rail. Road-based
freight transport over medium distances and passenger transport by coach will
increasingly use new types of vehicles on dedicated ‘green-infrastructure
networks’. While maintaining mobility, a gradual
tightening of emission regulations for new passenger cars is expected to favour
the use of alternative propulsion, particularly in urban centres. New personal
transport modes with minimal resource use will emerge, alongside the increasing
take up of cycling and walking in redesigned urban areas. Integrated planning
for sustainable mobility will be embedded in the context of urban and
territorial development. Logistics and goods delivery and distribution
services in urban areas will be quiet and increasingly carbon-free. New
distribution models for urban freight will be implemented. The development of public-transport
services will become concentrated in urban areas, as it is there that public
transport can increase its market share. Public transport will increasingly
rely on electricity. Public transport will remain affordable and accessible for
all, regardless social status and place of residence (avoiding access-poverty).
Totally new business models for public and private transport services might
emerge, such as shared ownership of means of transport. A new generation of
personal-mobility means, which may be connected and turn into ‘individualised’
public transport systems, may take off. Customised and green bus, coach,
microbus or taxi transport will ensure ‘accessibility on (electronic) demand’
in rural areas. 4. Strengthening
Europe’s transport research and innovation system The above vision will not become a reality
unless the European transport research and innovation system delivers the
necessary new solutions. This will require strategic actions in four fields. Firstly, the research and innovation
anchorage in transport policy should be strengthened. The Innovation Union flagship
initiative[11]
and Digital Agenda for Europe[12]
underline the need for a strategic approach to innovation. The Commission’s
proposal for Horizon 2020[13],
subject to the adoption by the legislative authority, highlights smart, green
and integrated transport as one of the six major societal challenges where
European research and innovation can make a real difference. In addition, the White
Paper on Transport calls for the integration of all transport modes into a single
European transport system, doing away with the current tendency to consider
each mode in isolation. Secondly, the efforts of individual sectors
and actors should be better aligned. Whereas, in general, multiple research efforts enhance the
probability of breakthroughs and increase the range of solutions, the
particularities of innovation in the transport sector suggest that joint or
coordinated efforts across sectors and actors may be more effective in specific fields. For example, transport service
providers often refer to an insufficient or premature supply of innovative
solutions, whereas the producers of transport solutions often wait for clear
market signals before developing new solutions and do not always fully
understand the user’s needs[14]. Thirdly, it is important to overcome
technology lock-in and institutional ‘silo’ thinking. Existing
structures and stakeholder alliances hamper full realisation of the potential offered
by transport innovation that draws on other modes and sectors. For example,
transport innovation could be more strongly influenced by developments in other
sectors such as telecommunication and energy. Transport operators that could
benefit from such innovative solutions often operate at low profit margins and
have limited incentives to invest in new solutions. Finally, the extensive asset requirements, major
investment needs, and high barriers faced by new market entrants prevent the
transport sector from bringing the necessary transformative solutions to the
market. The problem of the ‘valley of death’ between
research and development, on the one side, and innovation and market uptake, on
the other, has already been highlighted in the Communication on the Innovation
Union flagship initiative. It clearly applies to the transport sector. 5. Initiatives
to improve the innovation capacity of the transport sector The Commission proposes a range of initiatives
to implement the necessary actions. They will contribute to fulfilling the
policy objectives and help meet the Transport challenge in Horizon 2020[15]. 5.1. Making
transport research and innovation more focused The process of common strategic end-to-end
programming will provide an important tool to strengthen the innovation system.
This communication acts as a starting point for this work, and the Commission proposes
three comprehensive research and innovation areas where concrete and deployable
results must be achieved in the next twenty years. ·
With regard to means of transport, a paradigm
shift towards alternative propulsion systems, alternative fuels and smart
communication technologies should result in the development of clean, smart,
safe and quiet rail and road vehicles, aircraft and vessels, together with a
more effective interface with the infrastructure. This includes developments in
components, materials, and enabling technologies. Besides better serving the
needs of the European user, the global competitive edge of the European
transport manufacturing industry should be enhanced. ·
In the area of infrastructure, progress is
needed on smart, green, low-maintenance and climate-resilient infrastructure,
including for the provision of alternative fuels, modal traffic management and
information systems which can support user services, demand management, and
other solutions related to optimised infrastructure usage. Capacity building on
local, regional and national level is needed for both public authorities
responsible for the provision of services and transport operators. ·
In the area of transport services and
operations, major advances are needed with regard to seamless and
efficient services for passenger and freight transport to allow stronger
integration of all transport modes, in particular in urban and inter-urban
areas and in terms of well-designed nodes and efficient transhipment equipment.
Progress is also needed on integrated multimodal information, traffic and
demand management at European level, seamless logistics and innovative urban
mobility solutions, including high-quality public transport. Safety and security-related issues and ICT
applications will be mainstreamed throughout these fields, as well as user
needs such as accessibility, as they have implications for vehicles,
infrastructure and services. Socio-economic and exploratory research including
research to understand user behaviour will also be necessary. To achieve
actual deployment of new solutions contributing to European transport policy
objectives, European research and innovation activities must be focused. Annex
1 presents the three innovation areas, their ten identified fields[16] and how they relate to the
White Paper’s goals and targets. Taking into account expert judgement, the
Commission sees these ten fields as offering significant potential for
contributing to the White Paper’s objectives by 2030, though in certain fields
up to 2050, and they take into account the specificities of the individual
modes and multimodal issues. They represent neither a final position nor a list
of priorities for future research and innovation programmes and could be
adjusted during discussions with stakeholders. The fields represent a starting point for
organising a road-mapping exercise, to be launched in September 2012 with the
aim of focusing European R&D activities and funding on deployable
technologies that contribute effectively to policy objectives. It will also aim
at identifying existing gaps and addressing weaknesses along the innovation
chain. Its end-result will be one or several roadmaps for each field,
identifying funding, instruments and actors and foreseeing monitoring and
governance mechanisms able to take on board evolving contexts. Particular
emphasis will be put on fields where market failures exist or where joint or
coordinated efforts can accelerate the uptake of new technologies. This road-mapping, based on the current Communication
and accompanying staff working document, will be a consultative process
involving stakeholders in identifying where action at European level can yield
the biggest impact. For each priority area, a consensus will be sought on the
requirements arising from policy objectives and the European technological
state of the art. Wherever possible, roadmaps prepared by stakeholders will be
the starting point. This process will be underpinned by a scientific approach,
challenging the roadmaps from the point of view of overcoming fragmentation, so
as to be able to adopt more ambitious goals and to achieve a critical mass when
deploying solutions. In certain areas, especially those addressing cross-modal
issues where sound roadmaps are lacking, the task will require a greater
effort. The resulting set of roadmaps will be at
the heart of the European strategic transport technology plan. They will serve
as a basis for future work within the Commission, e.g. the preparation of work
programmes for Horizon 2020, identification of funding requirements,
legislative proposals that have the potential to stimulate deployment, etc. 5.2. Better
aligning efforts The Commission proposes to progress on
partnerships and improve governance of the innovation chain. The existing
transport-related public-private partnerships and European Technology Platforms
have already developed useful roadmaps and strategic research agendas, in
particular for modal issues. Additional or improved public-private coordination
mechanisms might be explored. Joint Programming, in the form of partnerships
among Member States facilitated by the Commission, or European Innovation
Partnerships, may also offer further potential to be explored. Links with other
strategic research and innovation strategies such as the SET-Plan[17] will be ensured. Regular and reliable information provision
to policy-makers and private-sector stakeholders can facilitate the monitoring
and steering of the development and deployment of innovative solutions. For
this purpose, the Commission intends to establish a Transport Research and
Innovation Monitoring and Information System (TRIMIS). Using funds from Horizon
2020, TRIMIS will become the Commission’s instrument for mapping technology
trends and research and innovation capacities. It may be linked with the
Commission’s Transport Research & Innovation Portal, an additional
information source. Finally, global environmental challenges
need a coordinated global response. The race to achieve sustainable mobility is
a global one. This means that integrating an international dimension in
European transport research and innovation is important for Europe’s success.
In particular, working towards global agreements and greenhouse-gas reduction
targets (e.g. on ICAO and IMO level) can ensure global development,
commercialisation, and deployment of innovative solutions that can help achieve
sustainable mobility. Europe will need to establish strong international
partnerships that serve its regulatory and commercial interests. 5.3. Beyond
the comfort zone: breaking through technology
lock-in Stimulating innovation in mobility and
transport will require mobilising not only mature segments of the transport
market but also blending them with existing or new emerging players from such
fields as telecommunications, content-generation, financial services and the energy-supply
market. As a result, a clash between interests and entrepreneurial cultures may
be created that is conducive to non-conventional and visionary thinking. The
strategic transport-technology plan will therefore also aim to: ·
Exploit convergences between distinct fields
such as transport, energy, information and telecommunications services, territorial
development, environment that can generate added-value for the mobility of
businesses and consumers and for broad policy purposes, such as growth and
employment. These should be pursued through a fresh approach based on new
system-based concepts and pioneering ideas; ·
Design a set of ‘out of the box’ operating
principles and instruments as well as interdisciplinary approaches to stimulating
entrepreneurship, e.g. prize competitions, new venture-capital schemes, smart
public procurement, etc., that can provide timely and adequate public responses
to the requirements of the users’ communities and the dynamics of the
marketplace; ·
Create a new dynamic of innovation in transport
that can promote a renaissance of the sector at large, making it attractive to
a new generation of talents, innovators and entrepreneurs. Coordinated
investments in training and education and rethinking the skills they deliver might
be necessary. Competitiveness of SMEs in the sector can be supported by better
access to finance, easier access to European and international markets and less
red-tape. 5.4. Efficient
deployment of innovative solutions The above measures will help to focus and
align efforts, creating new dynamics. However, to ensure a fast, large-scale market uptake and
deployment of new transport technologies and services,
and without jeopardising the Single Market, public
intervention may, if the market does not respond sufficiently, also take the
form of regulation, standards to ensure interoperability or continuity of
service, intellectual property rights, procurement and financial incentives.
The EU can mitigate distortions caused by subsidies and by generating revenues. The strategic transport-technology plan
will support the implementation of the funding programmes proposed by the
Commission for the next multiannual financial framework, subject to the
adoption by the legislative authority. This includes Horizon 2020, the
Connecting Europe Facility[18],
the ERDF and Cohesion Fund[19],
and the Programme for the Competitiveness of Enterprises and SMEs[20]. The European Investment Bank
will be invited to intensify the provision of preferential loans via the Risk
Sharing Finance Facility (RSFF), expand its lending to the transport sector under
its new lending policy[21] and provide increased technical assistance to public and private
stakeholders. Public financial support will need to be provided in full
consistency with the applicable EU state aid rules, including those governing research,
development and innovation activities, financing of transport activities and infrastructure
investments. 6. The
opportunities and challenges of transport-technology deployment Reaching our policy goals will require the
replacement of many of today’s transport systems and solutions by new ones within
a relatively short period of time. The additional investment needed in
innovative vehicles, equipment and vehicle-charging infrastructure to achieve
the emission-reduction goals for the European transport system is estimated at
one trillion euro between 2010 and 2030[22].
This seems a large sum but the amount is roughly the same as EU households
spend on transport in one year[23]. The analysis carried out by the European
Commission[24]
shows that although the investment costs are not negligible, the market introduction
of new solutions is mainly prevented by the lack of economic incentives for
changes at ‘systems-level’, both for users and suppliers. Yet, the deployment
of new green, smart, safe, and efficient transport solutions provides a
tremendous opportunity to achieve our environmental and climate objectives, as
well as to increase European competitiveness. Given the urgency and diversity of the
challenges that lie ahead, political debate is needed on how stakeholders,
Member States and the Commission can commit to, and achieve, faster and more
efficient emergence and deployment of innovative solutions. Taking into account
the pressure that the current economic crisis and its aftermath will put on
public budgets, priorities will need to be set and the appropriate instruments
(such as financial incentives, regulation, standards, politically-set
industrial targets, voluntary commitments and coordination actions) to be put
in place to stimulate deployment in every priority field. Europe’s transport system needs to be
adapted. Decision-makers need to declare where they stand on the balance
between the different instruments, taking into account the urgency,
acceptability and affordability of implementing the innovative solutions that
are necessary to achieve our policy goals. Citizens’ awareness should be
increased and incentive measures could help to stimulate changes in consumer
behaviour that are coherent with technological innovation, thus facilitating
market uptake and increasing demand for advanced products and services. In this
context, any debate on costs has to be seen against the costs of inaction. 7. Taking
the work forward This communication presents the Commission’s
views on how transport research and innovation could contribute to the
ambitious objectives of the White Paper on Transport and support the
implementation of Horizon 2020 linking also up with strategies for smart
specialisation. The Commission invites the Council and
Parliament to: ·
Confirm the objective of better aligning
transport research and innovation with European transport policy goals, taking
into account the current economic and political reality and the long-term
sustainability objectives; ·
Agree to focus efforts on delivering pioneering
and sustainable transport solutions at a European, national and local level
through innovative technologies, new service approaches and entrepreneurship; ·
Consider how to find the appropriate balance
between the various instruments necessary for market uptake and deployment; ·
Endorse the approach comprising preparation of a
European strategic transport-technology plan, and the options for further
actions, as outlined in this communication. ANNEX: Research
and innovation areas, priority fields, and their policy relevance This table
presents how technological innovation in each priority field is expected to
contribute to the White Paper’s goals. Research and innovation area || Field || The ten White Paper goals (summarised for readability) Low-emission city transport and logistics || Low-carbon fuels in aviation and maritime transport || Freight; modal shift from road transport || EU-wide high-speed rail network || Multimodal TEN-T core network || Long-term comprehensive network || Traffic-management systems in all modes || Multimodal transport information || Close to zero fatalities in road transport || Towards ‘user pays’ and ‘polluter pays’ Clean, efficient, safe, quiet and smart transport means || Clean, efficient, safe, quiet and smart road vehicles || ¢ || || || || || || || || ¢ || Clean, efficient, safe, quiet and smart aircraft || || ¢ || || || || || ¢ || || || Clean, efficient, safe, quiet and smart vessels || || ¢ || ¢ || || || || || || || Clean, efficient, safe, quiet and smart rail vehicles || || || ¢ || ¡ || || || || || || Infrastructure and smart systems || Smart, green, low-maintenance and climate-resilient infrastructure || || || ¢ || ¢ || ¢ || ¡ || || || ¢ || Europe-wide alternative fuel distribution infrastructures || ¢ || ¡ || ¡ || || || || || || || Efficient modal traffic-management systems (incl. capacity and demand management) || || ¢ || ¢ || ¡ || ¡ || || ¢ || ¡ || ¡ || ¡ Transport services and operations for passengers and freight || Integrated cross-modal information and management services || || ¡ || ¡ || || ¡ || ¡ || || ¢ || || Seamless logistics || ¡ || ¡ || ¢ || || || || || ¡ || || Integrated and innovative urban mobility and transport || ¡ || || || || || || || ¡ || ¢ || ¢ Major contribution anticipated from this
priority field to reach the White Paper’s goal ¡ Some contribution anticipated from this
priority field to reach the White Paper’s goal [1] Roadmap to a Single European Transport Area —
Towards a competitive and resource efficient transport system, COM(2011) 144
final. [2] Europe 2020: A strategy for smart, sustainable and
inclusive growth, COM(2010) 2020 final. [3] Mapping innovation in the European transport
sector, EC Joint Research Centre, EUR 24771 EN, 2011 [4] This refers to own-funded R&D investments;
accordingly, as far as possible it excludes publicly funded research activities
in order to avoid double-counting of public R&D investments. [5] Including the European Green Cars Initiative,
CleanSky and SESAR (Single European Sky ATM Research), plus the current European
Technology Platforms with main relevance for transport: ACARE (Advisory Council
for Aviation Research and Innovation in Europe), ERRAC (European Rail Research
Advisory Council), ERTRAC (European Road Transport Research Advisory Council),
and WATERBORNE-TP (Technology Platform for the Maritime and Inland Navigation
sectors). [6] European Rail Traffic Management System. [7] Single European Sky ATM Research. [8] Europe’s state-of-the-art global satellite navigation
system. [9] A sustainable future for transport: Towards an
integrated, technology-led and user friendly system, COM(2009), 279 final. [10] Scientific Assessment of Strategic Transport
Technologies, EC Joint Research Centre, EUR 25211 EN, 2012. [11] Communication from the Commission to the European Parliament,
the Council, the European Economic and Social Committee and the Committee of
Regions: Europe 2020 flagship initiative: Innovation Union, COM(2010)
546 final. [12] Communication from the Commission to the European
Parliament, the Council, the European Economic and Social Committee and the
Committee of Regions: A Digital Agenda for Europe, COM(2010) 245 final/2. [13] Communication from the Commission to the European Parliament,
the Council, the European Economic and Social Committee and the Committee of
Regions: Horizon 2020 — The Framework Programme for Research and Innovation,
COM(2011) 808 final. [14] Summary Analysis of Responses to a Country Survey on
Innovation in Transport, International Transport Forum (2010). [15] Proposal for a Regulation for the European Parliament
and of the Council establishing Horizon 2020 – The Framework Programme for
research and innovation (2012-2020), COM(2011) 809 final. [16] The research and innovation areas and priority fields
are presented in greater detail in the staff working document Preliminary
Descriptions of Research and Innovation Areas and Fields, SEC….. [17] A European strategic energy technology plan (SET
Plan) - Towards a low carbon future, COM(2007) 723 final. [18] Proposal for a Regulation of the European Parliament
and the Council establishing the Connecting Europe Facility, COM(2011), 665
final. [19] http://ec.europa.eu/regional_policy/what/future/proposals_2014_2020_en.cfm [20] Proposal for a Regulation of the European Parliament
and the Council establishing a Programme for the Competitiveness of Enterprises
and small and medium-sized enterprises (2014 – 2020), COM(2011) 834 final. [21] EIB transport lending policy:
http://www.eib.org/projects/publications/eib-transport-lending-policy.htm [22] Impact Assessment
Accompanying the White Paper on Transport,
SEC(2011) 358 final, p. 84. [23] 13.6 % of household expenditure. Source: Eurostat. [24] Mapping innovation in the European transport sector,
EC Joint Research Centre, EUR 24771 EN, 2011.