 

European Innovation Partnership on 


Smart Cities and Communities 


 

Strategic Implementation Plan 


 

14.10.2013 

 

 

 

 

 

 

 

 

 

 

 

 

 


Foreword 

 

The High Level Group of the European Innovation Partnership for Smart Cities and Communities 
would like to present our Strategic Implementation Plan for speeding up the transformation of 
European Cities into "Smart cities". We invite all our stakeholders to respond to our plan, especially 
in terms of commitments and actions to deliver progress. 

The plan outlines our ideas on how to best harness innovative technologies, innovative funding 
mechanisms and innovative public private partnerships. It highlights actions needed to create the 
right framework conditions to make our cities better places to live and to do business in, to reduce 
energy use, carbon emissions and congestion. 

The High Level Group and our Sherpa Group will continue to work on an Operational Plan which will 
set out in further detail how we believe we should move forward. 

 

 

 

 

We are grateful for the help and support we have received from the European Commission Services 
and especially from our Sherpa Group and the Stakeholder Platform. 

 


Executive Summary 

 

Cities are becoming more and more of a focal point for our economies and societies at large, 
particularly because of on-going urbanisation, and the trend towards increasingly knowledge-
intensive economies as well as their growing share of resource consumption and emissions. To 
meet public policy objectives under these circumstances, cities need to change and develop, but in 
times of tight budgets this change needs to be achieved in a smart way: our cities need to become 
'smart cities'. 

The European Innovation Partnership on Smart Cities & Communities seeks to significantly 
accelerate the industrial-scale roll-out of smart city solutions integrating technologies from Energy, 
Transport and Information and Communication Technologies (ICT). This is where there is most 
untapped innovation potential and most environment and societal benefits to be gained. The 
partnership was launched in July 20121 and its overarching goal has hence been formulated thus: 

1 "Smart Cities and Communities - European Innovation Partnership" [COM(2012)4701] 

2"An Energy Policy for Europe" [COM(2007) 1 final] 

3http://www.eu-smartcities.eu/ 

This partnership strives at a triple bottom line gain for Europe: a significant improvement of 
citizens' quality of life, an increased competitiveness of Europe's industry and innovative SMEs 
together with a strong contribution to sustainability and the EUs 20/20/20 energy and climate 
targets2. This will be achieved through the wide-reaching roll out of integrated, scalable, 
sustainable Smart City solutions  specifically in areas where energy production, distribution 
and use; mobility and transport; and information and communication technologies are 
intimately linked. 

The Partnership aims to overcome the challenges that remain as road blocks on our way to 
'smartening up' Europe's cities. In addition to innovative solutions the Strategic Implementation Plan 
will also create value for Europe by, helping to align existing city initiatives and projects, helping to 
create economies of scale and more effective knowledge sharing. It looks to establish strategic 
partnerships between industry, innovative SMEs, European cities and other stakeholders at local 
level and across borders in Europe. Major challenges include adopting a cross-sector approach, and 
making necessary change in the existing financial models, procurement regimes, regulatory 
framework and knowledge base. 

As an initial output the Partnership has agreed on this Strategic Implementation Plan (SIP), which is a 
result of the work of a High-Level Group, their supporting Sherpa group and contributions from the 
Smart Cities stakeholder platform3. In order to focus energy and gain momentum, the plan 
concentrates on three specific, vertical areas for the time being: 

. Sustainable Urban Mobility  Alternative energies, public transport, efficient logistics, 
planning; 
. Sustainable Districts and Built Environment improving the energy efficiency of buildings and 
districts, increasing the share of renewable energy sources used and the liveability of our 
communities; 
. Integrated Infrastructures and processes across Energy, ICT and Transport  connecting 
infrastructure assets to improve the efficiency and sustainability of cities 



The Plan puts forward eight key horizontal enablers on the themes of Decisions, Insight, and 
Financing. 

To successfully implement this SIP, and the forthcoming Operational Plan, and develop these three 
vertical priority areas and eight key horizontal enablers, we have proposed a number of actions; 
examples of which include: 

1. Create a number of Lighthouse Initiatives that bring together groups of cities with industry 
and innovative SMEs from the ICT, energy and mobility & transport sector to deliver 
common Smart City solutions thus creating scale and reducing risk for political decision 
makers as well as investors, to progressively support wider implementation across the EU as 
well as showcasing the competitiveness of European industry and innovative SMEs. 


To unleash the full potential of innovation and make best use of infrastructural and other 
synergies, these "Lighthouse Initiatives" must focus on the integration of technologies across 
the ICT, energy and mobility & transport sector so to achieve, e.g., advances in 'zero/plus' 
energy districts, increased use of alternative energies, public transport and efficient logistics, 
or green, widely available ICTs and multiple-use infrastructures. Continuous progress 
monitoring must be assured. 

2. Apply new business and financial models, public-private partnerships that combine industry 
with public investments at European, national, regional and local level, as well as European 
procurement schemes so to deliver improvements faster across the three vertical areas. 
3. Advance Smart City open standards through the CEN-CENELEC-ETSI Smart City coordination 
group in the form of a common technical committee to develop a common landscape and 
strategic programme for smart city standards. 
4. Develop infrastructure platforms and common architectures for smart city information. 
5. Make widely available, relevant data in the urban domain through culture change towards 
open data by default with public and private actors. 
6. Develop tools for scalable integrated design, simulation and multi-criteria optimisation to 
enable multi-stakeholder analyses of different spatial and sectorial perspectives (i.e. 
performance and life-cycle assessments, sustainability assessment, and visualisation of 
impacts). 
7. Create a common framework to develop citizen insight and share rapidly amongst EU cities. 
8. Develop a Smart City Strategy at a policy level which allows for the creation of innovation 
zones that free up cities or areas from the constraints of regulation in selected domains and 
for limited duration in order to act as an incubator to test solutions. To scale up and make 
broadly available the lessons learned. 
9. An annual programme of 100 short term staff exchanges between cities, industries and 
relevant NGOs to crowd-source the best ideas. To begin in 2014 
10. Implement collaborative, integrated smart city planning (city planning forums) and 
operation, that maximise city-wide data to deliver more agile processes; employing modern 
multi-criteria simulation and visualisation tools. 
11. Agree a common Smart City indicator framework to help cities self-evaluate, monitor 
progress, and more reliably compare themselves with other cities and to provide certainty 
for long-term industry investments in innovation. 


 


1 Introduction and goals 

 

Definition: 

Smart cities should be regarded as systems of people interacting with and using flows of 
energy, materials, services and financing to catalyse sustainable economic development, 
resilience, and high quality of life; these flows and interactions become smart through making 
strategic use of information and communication infrastructure and services in a process of 
transparent urban planning and management that is responsive to the social and economic 
needs of society. 

In order to achieve a decarbonisation of Europe's economy in line with the EU' 20/20/20 energy and 
climate goals today's ICT, energy (use), transport systems and infrastructures have to drastically 
change. This is highlighted in the illustration below. The EU needs to shift to sustainable production 
and use of energy, to sustainable mobility, and sustainable ICT infrastructures and services. 

 

 

Figure 1: Primary energy consumption scenarios for 20204 

4 Source: European Commission 2013 

5http://www.eumayors.eu/IMG/pdf/com_brochure_en.pdf 

 

Cities and urban communities play the crucial role in this process. Three quarters of our citizens live 
in urban areas, consuming 70%5 of the EU's overall energy consumption and emitting roughly the 
same share of greenhouse gases. Of that, buildings and transport represent the lions share (see 
illustration below). The trend towards urbanisation continues at unprecedented pace at European 
and global scale and risks increasing traffic congestion and pollution which in turn risks rendering 
cities dysfunctional, undermine competitiveness and seriously affect quality of life. Furthermore, 
cities are a huge economic and purchasing power in Europe and account for 19% of the total 
expenditures in the EU. If combined and thought through in a smart way this could trigger a 
significant potential for economic growth and jobs by combining market pull and technology push, 
even without reliance on traditional funding mechanisms. 

 

Whilst it is true that European cities and regions are different from each other, it is also true that 
they have many similar needs that can be tackled best through a common approach. This 
Partnership focuses on those areas where ICTs, energy and mobility overlap and seeks those 
approaches and solutions that are common and transferable from city to city. Many solutions have 
indeed already been developed, however scale-up at industrial strength has not occurred. 


Increasing market opportunities and reducing investor risk can, however, drive down costs to an 
extent that will ultimately make for mass production and broad use. Developing integrated solutions 
throughout Europe will allow industry to deliver what cities and regions need, with better quality 
and at lower costs to the benefit of, and with the involvement of, society. 

The European Innovation Partnership6 for Smart Cities and Communities7 aims to make this possible 
by accelerating the market uptake of smart city solutions. To this end the Partnership seeks to 
engage stakeholders at various levels from cities and regions, industry, SMEs, and research in order 
to create critical mass. 

6 Europe 2020 Flagship Initiative Innovation Union SEC(2010) 1161 

7 The European Innovation Partnership for Smart Cities and Communities  http://ec.europa.eu/eip/smartcities 

8 European Unions 20/20/20 sustainability targets for the year 2020: a 20% reduction in EU greenhouse gas emissions from 1990 
levels;raising to 20% the share of EU energy consumption produced from renewable resources; and a 20% improvement in the EU's energy 
efficiency. Furthermore, Europe is offering to reduce emissions by 30% by 2020 (subject to commitments by other countries), by 40% by 
2030 and by 60% by 2040. The goal for 2050 is 80-95% reduction from 1990 levels. 

9 High level representatives from industry, research and cities, which are appointed by the European Commission in their personal 
capacity http://ec.europa.eu/eip/smartcities/whos-who/index_en.htm 

10 http://ec.europa.eu/eip/smartcities/whos-who/index_en.htm#sherpa 

11 Smart Cities Stakeholder Platform: a collaborative, networking and knowledge sharing tool in the domain of Smart Cities and 
Communities. http://eu-smartcities.eu 

Smart solutions triggered by the Partnership should contain elements of ICT, energy, and 
transport/mobility. The solutions should be scalable and replicable and aim at ultimately 
contributing to and possibly out-performing the EUs 20/20/208 climate action goals by increasing 
energy efficiency, increasing the use of renewable energy sources and reducing energy consumption 
and green-house-gas emissions. Tools, methods and processes developed in this context should 
differentiate themselves by the holistic approach linking planning, design and operation while 
keeping in mind citizens needs. 

The Partnership produced the present Strategic Implementation Plan (SIP) as a result of the work of 
a High-Level Group9, their supporting Sherpa group10 and contributions from the Smart Cities 
stakeholder platform11. This Strategic Implementation Plan outlines the priorities and proposes 
implementation actions for the widespread deployment of smart city concepts. It also proposes 
specific actions on regulatory issues, standards, business models and public procurement schemes. 

It is recognised that cities encompass significantly more domains than the three covered in this 
Strategic Implementation Plan. However we see the current focus as an important starting point that 
will build momentum and, may then later on expand in scope to other urban domains 

 


2 Problem analysis 

The context that underpins this SIP, and calls for scale and accelerated action has been discussed. At 
present, European Member States, cities and communities throughout Europe, are taking different 
approaches to how they respond to the challenges of urban transformation. By itself this is not 
unexpected, however given the extensive commonalities that exist at a systemic level between 
cities, and the constant need for progress, there is scope for a more coordinated and 
complementary approach. This will: access the economies of scale that can deliver more affordable 
solutions; focus innovations from across Europe on the integration of the three areas; and help 
Europe to remain globally competitive. 

The EIP is a stakeholder-driven initiative with the EC in a mediating / facilitating role, so that the 
principle of subsidiarity remains intact. 

Given the scope and complexity of cities, the approach taken in preparing this Strategic 
Implementation Plan has been to consider three vertical domains, and eight horizontal enabling 
themes (see illustration). For the former, potential exists to improve outcomes through applying 
smart approaches that integrate across city systems, exploit existing assets, whilst also upgrading 
with new assets. For the latter, coordinated actions at a European Institution and Member State 
level can deliver the enabling environment within which cities, industry, and other stakeholders can 
achieve success, at scale, faster. 

These eleven inter-dependent priority areas are considered to be the most important concerning 
Smart Cities and Communities, and the intersection with the areas of energy, transport and ICT. 

 

 

Figure 3: Priority areas 

Each priority area is discussed individually, against three main considerations: the context and 
challenges we are addressing; the drivers and desired state we seek; and what actions can help 
result in game-changing outcomes. 


 

Vertical Priority Areas 

2.1 Sustainable Urban Mobility 

2.1.1 Context & Challenges 

Good mobility for citizens and businesses greatly increases the attractiveness and competitiveness 
of cities. Meeting Europes goals (20/20/20)12, tackling congestion, improving air quality, accessibility 
and sustainability in most cities will require substantial changes in the transport system and its 
operations, and in the mobility behaviour of people and businesses. Public transport and soft modes, 
especially walking and cycling, need to become more attractive. Too many vehicles in cities are 
powered by oil, and alternative fuels13 are under- used. Commercial vehicles are essential for the city 
economy, but they contribute to and suffer from congestion. Effective ways are needed to attract 
people towards collective transport means, while these need better integration towards seamless 
multimodality. Public and other transport services, timetables and ticketing, and interchanges  are 
not always well connected. Finally, we need to re-think how the public and private sectors 
cooperate, and how to engage citizens and businesses more directly in new mobility systems and 
services that should serve them. 

12 White Paper COM(2011)144 outlines the following targets: halve the use of conventionally fuelled cars in urban transport by 2030; 
phase them out in cities by 2050; achieve essentially CO2-free city logistics in major urban centres by 2030. As a follow up, the European 
Commission intends to present late 2013 an Urban Mobility Package focusing on Urban Mobility Plans, urban road user charging and 
access restriction schemes, and urban freight flows. 

13 EU Clean Power for Transport Package (COM (2013)17): the main options for the different transport modes are: liquefied petroleum gas 
(LPG), natural gas and biomethane (in the forms of CNG, LNG and GTL), electricity, biofuels and hydrogen. 

 

2.1.2 Ambitions 

A first priority is to reduce and avoid demand for emission-intensive transport modes while 
facilitating the increased mobility of people, goods and information and ensuring that efficient 
transport is devised around smart integrated infrastructure and mobility planning. Secondly, a shift 
from more energy intensive and environmentally harmful modes of transport to less polluting, 
better integrated and more efficient modes is required, for example public transport, favouring 
efficient logistics and non-motorized modes. Thirdly, reduced impact can be achieved through 
improved, cleaner transport technology and policy solutions, driven by better management of 
mobility. Zero- and low-emission vehicles will connect with each other, with infrastructure and with 
"the smart grid". Urban transport strategies and new public-private actions will get sustainability 
done in towns, cities and region. Already, a number of Member States, regions and cities have set 
up initiatives in electric transport and mobility. 

2.1.3 Recommended Actions 

1. Make solutions widely available in cities through various types of actions to reach the 
objectives of the vision above, focusing on: 
o alternative fuels; infrastructure, vehicles, fuels and energy management; 
o inter-modal mobility hubs to ensure connections between public transport modes, 
connect other mobility services, and optimize energy efficiency; 





o in the logistics supply chain in urban areas ('last mile'); 
o to create new opportunities for personal, sustainable mobility and efficient logistics 
by harnessing the intelligence of the urban transport system and its users; 
connecting networks and creating, analysing and utilizing data. 


2. Create a "deployment toolkit to transfer models, blueprints and lessons learned on 
sustainable urban solutions in all of Europes cities, and directly to their citizens and 
businesses; 
3. Bottom-up approach to encourage active involvement of citizens to take ownership so this 
can function as a platform and an inspiration for (small and medium) enterprises in the 
search for sustainable options. 


 

2.2 Sustainable Districts and Built Environment 

2.2.1 Context & Challenges 

Districts are where society and place come together. They are where people literally live and make 
decisions about key city systems (transport mode; energy consumption; waste); The main challenge 
in Districts and Built Environment is to reduce energy use, environmental impact and carbon 
footprint, entail competitive industries for jobs and growth and at the same time ensure societal and 
social development and the well-being of citizens. The investment needed to improve energy 
efficiency, generate low carbon energy, modernise infrastructure and create high quality living 
environments is enormous. At the same time, cities have limited access to planned financial 
resources for systemic change, which requires the activation of private capital combined with public 
investment. 

Currently our existing building stock plays a major role in energy consumption (40% of EU final 
energy demand). This stresses the need for affordable and sustainable retrofit solutions. However, 
since buildings last 40+ years, it is essential to find energy efficient, low carbon solutions for new 
buildings and districts as well. The major challenge in this area is the scaling up of (new) solutions, 
technologies and materials. 

Cities  as systems with people, energy flows, materials, services and financing  need to be 
explored in an integrated and global way to ensure resilient cities (e.g. reliable energy supply during 
sudden natural or manmade events) and sustainability. Therefore the integration into, and 
interoperability between, urban systems is needed  alongside co-creation by, and involvement of 
citizens. 

Recognising every city has its different surroundings, it is essential to combine requirements to 
enable industries to provide solutions that are fit for purpose and at the same time come with 
reasonable pricing and quality. 

2.2.2 Ambitions 

For the sustainable development of our districts and built environment co-creation and integrated 
urban planning are needed. This includes citizen and industry engagement, and the implementation 
and deployment of effective and user-friendly technologies and services. Urban planning is closely 
related to the economic and social activity of communities; i.e. technology is seen as an enabler of a 
good quality of life. In city planning and city management the identification, integration and 
optimisation of different energy, transport and data flows (e.g. citizen preferences) as well as a close 
link to urban planning processes are needed for creating sustainable smart environments. 


Transition of our districts to low carbon and zero/plus energy/climate neutral status can be achieved 
by implementing and optimising: local renewable energies with existing energy production (e.g. 
smart energy networks, virtual power plants); storage systems; and demand control. Further, user 
friendly zero-energy or energy-positive new buildings/ autonomy at building blocks level, and deep 
and smart retrofitting of existing building stock using the latest knowledge, technologies and 
materials are needed. Policy measures to support an increase of the rate of retrofitting of the old 
stock of buildings should be sought since it contributes directly to the achievement of emissions 
targets and to growth and local jobs creation. The implementation of any new technologies must fit 
within existing structures and environments since the renewal of building stock is costly and 
generally takes very long. 

Integrated, affordable and user friendly multi-optimised solutions (materials and systems such as 
high performance insulation solutions, smart heating, cooling, and ventilation; smart lighting  both 
indoor and outdoor, and electrical vehicle charging) should lead to broadly affordable and 
comfortable, safe, secure and cost efficient buildings and districts. 

2.2.3 Recommendations 

1. Develop a scalable integrated design, simulation and multi-criteria optimisation toolkit 
which enables multi-stakeholder analyses of different spatial and domain perspectives as 
integrated ecosystems (addressing integration of renewable energy sources, performance 
and life-cycle assessments, sustainability assessment, and visualisation of impacts). 
Interoperability with operational systems actually in use is essential for take-up. 
2. Develop and agree (between an established network for dialogue between cities, industry 
and SMEs) on a set of building blocks based on large common city challenges in the longer-
term; this will help build up new business models and speed up broadly deployable solutions 
available 
3. Scale up significantly the upgrading of the existing building stock with affordable solutions, 
and develop and deploy zero/plus energy buildings with innovative technical solutions and 
materials. Pilot at the same time new business/financial models. Use innovation zones as 
incubators. 
4. Develop auditing tools/systems and development of framework on measured variables: 
Define certification criteria for data and information on CO2, energy use, gas use, water use, 
etc. using as much as possible existing criteria. 


 

2.3 Integrated Infrastructures and processes across Energy, ICT and Transport 

2.3.1 Context & Challenges 

Cities have grown and thrived, economically and socially, because of the benefits of common shared 
infrastructures. The latest and fastest growing infrastructure is information and communication 
technology. ICT has supported innovation in many infrastructures  though predominantly only 
independently. Now is the time to consider the potential from integration across these 
infrastructures, and their related operational processes. This combined approach recognises the 
inter-dependencies between urban systems. Importantly, this new integrated approach offers 
strategic (e.g. capital) and operational (cost reduction, system effectiveness) gains by exploiting 
existing assets. Through focused application in select cities it is entirely feasible to exceed the EU 
climate goals. 


2.3.2 Ambitions 

Governance of such change presents significant challenge, given the sector-specific and 
administrative-boundary-focused implementation and operation of current individual 
infrastructures. This is the case in domains such as electricity, district heating/cooling, public and 
private transport, community spaces, lighting and other utility systems. 

Success requires change to planning processes, alignment of budgeting, adoption of new business 
models, more collaboration in approval processes, and acceptance of joint operations and risk. 
However, with economic pressures, social opportunities, and technological advancements, the time 
is ripe to re-evaluate  at pace  how we can increase the value and performance of our shared 
urban infrastructures  existing and new. This must all be done whilst cities are in full motion, i.e. 
integration of new innovations alongside and within existing infrastructures. These are common and 
real issues, thus scalable, more common, and replicable solutions are of utmost importance. 

Opportunities emerge through advancement in technologies and other innovations. Modern ICTs  
social media, mobile devices, analytics, cloud, sensors  offer opportunities for digital 
transformation in cities. ICTs will become a critical skeleton linking infrastructures and users through 
real-time information  enabling cities to shift from reactive to predictive operations. This can 
optimise use of low carbon intermittent energy for both energy consumption and transportation 
applications. New and fast-evolving technologies include: embedded sensors that provide location 
and state information; near field communications that enables people to interact with 
infrastructures (e.g. transport ticketing systems); next generation technologies (e.g. change to 
energy efficient street lighting and ubiquitous bi-directional energy management); mobile devices as 
the ubiquitous means by which people can become a sensor within overall city infrastructure 
systems. 

Managing the flow of electricity around an urban area grid is vital to increase energy efficiency, e.g. 
through new mechanisms to interconnect energy users and energy infrastructures, so that they may 
moderate their consumption depending on the grid conditions as well as the energy carbon 
footprint. Similar approaches can be applied to urban mobility and other linked domains. 

2.3.3 Recommended Actions 

1. Identify and implement visible, evidence-based examples of rapidly-available value from 
integrating infrastructures. The on-going evolution towards smart grids in Europe clearly 
demonstrates the overall gains that can be had from sharing active and passive 
infrastructures, as well as related services, across sectors. What is needed now are 
more quick wins that create visible added value almost immediately. An example would be 
the humble lamppost that as street furniture is also put to use as a strategic asset for WiFi 
remote-controlled CCTV systems (for safety, parking, and traffic monitoring), for 
communications (e.g. maintenance needs) and the like. We need more of such quick wins 
that offer early gains, as they will progressively build confidence and momentum. 
2. Develop a common architecture for integrated urban platforms that can enable joint 
procurements and common solutions designs; and through which other cities can acquire 
solutions faster and with reduced technological risk. 
3. Build and test business models that resolve investment / return conflicts, where solutions use 
common infrastructures between sectors. 


 

 

 

 

 


Horizontal Priority Areas / Enablers 

Decisions: 

2.4 Citizen focus 

2.4.1 Context & Challenges 

Citizens are at the heart of a city and also at the heart of the challenges cities face through on-going 
urbanisation and demographic mix, consumption habits as well as increasing expectations as regards 
quality of life. Citizens must therefore also be at the heart of the solution. Yet presently, citizens are 
insufficiently engaged, motivated or empowered to contribute. And cities do not have a deep 
enough understanding of their citizens to actively and effectively engage them. A fundamental 
change is required, without which we simply cannot sustain current norms. With a better 
understanding of citizens motivations, cities and their partners could define effective strategies and 
tools to equip citizens to be actors in smart city systems: ensure that they are informed, motivated 
to act responsibly, proactive and participative, or even co-create. If smartly mobilized, the effect of 
citizens behaviour, choices, creativity and entrepreneurship could be enormous, offering huge 
untapped potential. ICTs play a vital role in this  particularly as the Internet, not least through 
smartphones, becomes all-pervasive  as well as the willingness to be open towards new citizen-
driven initiatives that might not fit with the current administrative system. 

2.4.1 Ambitions 

When citizens are engaged in shaping their public spaces, public transport and public services, and 
there is a true culture of empowerment and co-creation between citizens and cities, as well as other 
relevant stakeholders, citizens can help build the cities and the services to better reflect their 
interests. From the provision of relevant information to citizens so they may make better decisions, 
to the harvesting of their ideas, and last but not least for the co-creation of designs the contribution 
of citizens can add to the efficiency and effectiveness of the innovation process. There is also a need 
for better feedback and incentive for those who participate, to make citizen engagement interesting 
and attractive. Existing urban knowledge sharing networks and user groups can play an important 
role in support of this. Experience from the private sector can help, as many of the concepts, 
processes and tools from business can be applied to the public sphere to help governments improve 
their own feedback and improvement cycles, whether they relate to infrastructure, societal issues or 
other problem areas. 

2.4.2 Recommended Actions 

The change to an outside-in model of citizen-centricity requires a suite of actions, and a clear 
sustained commitment to make the change. There are however a few specifics that will accelerate 
matters, and whilst none of them alone may cause radical change, in combination they can support 
large scale sustained change. In addition it is important to give citizens relevant information in an 
easy to understand way, and to enable and encourage them to choose energy efficient and low 
carbon ways to work, live, and travel. 

1. Develop a common European framework by which cities can achieve deep customer insights 
(citizen, business, visitor); and use this to accelerate experience sharing between cities. In 
addition create systems to encourage citizens to choose low carbon options. 



2. Remove barriers from experimental initiatives that innovate and increase knowledge, and 
support co-creation. Examples could include: 'legislation hack days', or 'white label' 
applications for opinion harvesting. 
3. Establish local citizens committees that can work with local public authorities, SMEs and 
larger industry as well as academia to set the local targets for smart city developments. 


 

2.5 Policy and Regulation 

2.5.1 Context & Challenges 

Cities need an adequate set of framework conditions in the field of policy and regulations in order to 
be able to become smart. The need for action in the field of policy and regulation is highlighted by 
the following: 

EU-wide complexity: policy and regulation is a EU, Member State and regional level prerogative, so 
change requires considerable due diligence processes 

Silo Thinking: Cities, and authorities in general, often focus on stand-alone smart cities projects, 
which involve only specific parts of the municipal administration. The same holds at higher tiers of 
administration. Specialized staff tend to focus on their respective areas, and are less open to 
collaboration across thematic borders. 

Regulations that inhibit smart city roll-out: Regulations, ranging from local permits for industry, to 
legal directives and acts that govern city-wide planning, to conflict with national standards, can all 
impede the implementation of smart cities strategies. 

Uncertainty: Private companies are hesitant to invest in new technologies and infrastructure where 
there is policy uncertainty, and limited technology integration. Technological uncertainties and 
differences in technical standards between various countries often hinder a large scale, Europe-wide 
deployment of Smart City concepts. 

2.5.2 Ambitions 

A strategic vision backed up by all stakeholders and supported by long-term policies, regulations and 
frameworks is the basis for an effective and efficient change process. Alignment, both horizontally 
(different policy fields) and vertically (local, regional, national, EU), using a participatory approach 
guarantees a holistic view and commitment to the smart-city process. 

2.5.3 Recommended Actions 

Innovative forms of governance are needed to enable the integration of different stakeholders 
within the process. Platforms and forums (both formal and ad-hoc) are needed to bring together 
policy makers and experts to work on the identification and mapping of conflicts/gaps/hurdles; 
improvements to the regulatory framework (improve/abolish/consolidate and simplify) ; and to 
initiate a process of training and education for city stakeholders (sharing of knowledge/ best 
practices). 

Actions needed on the policy level are the following: 


1. Encourage cities to develop a Smart City Strategy and implementation plan to give this topic 
priority on the policy agenda and enforcing greater recognition of across policy domain 
thinking. 
2. Challenge policy and regulation to enable the application of innovative funding models that 
combine existing public and private funding sources with new types of funding, which at the 
same time allow cities to gain more influence on their own finances. 
3. Implement innovation zones in cities to test and evaluate the effect of revised policies and 
regulations, as well as consider different or reduced form of regulation in specific fields. 


 

2.6 Integrated planning & management 

2.6.1 Context & Challenges 

Our current approaches are insufficiently agile to cope with a more entrepreneurial approach to 
planning, and to respond to the pace of change in demographics, societal expectations, and 
technology. We require a major change in capabilities; more inclusive and involving processes; and 
greater collaboration within and across traditional administrative and industry 
boundaries. Integrated planning and management involves spatial, temporal and technical 
coordination of diverse policy areas and planning resources to achieve defined goals using specified 
instruments. Its success requires the early, dynamic, and comprehensive involvement of multiple 
governmental and non-governmental players, private sector, and citizens. It is particularly 
challenging as it involves managing long-term planning perspectives alongside short-term actions, 
dealing with new levels of integration, and addressing a diverse set of domains to achieve political 
and professional ambitions  addressing both existing (retrofit) and new-build urban territory. 

2.6.2 Recommended Actions 

A number of initiatives are recommended to accelerate and demonstrate a better approach, 
specifically: 

1. Improving collaborative governance mechanisms dedicated to integrated planning & 
management (e.g. a metropolitan-area / city-wide integrated planning forum). 
2. Maximising the use of city-wide data (e.g. obtained through location-based city sensing 
systems and as part of city operations) to deliver a more dynamic and informed planning 
process across short and long time horizons. 
3. Using urban simulation models to capture the dynamics and impacts of urban development, 
including socio-economic aspects. Interoperability with operational systems actually in use is 
essential for take-up. 
4. Focussing on the use of energy-models and energy-mapping from district to city-wide scale, 
addressing all relevant sectors. This can deliver early benefits. 
5. Using visualization, decision support and peer-to-peer-tools, to engage a broad stakeholder 
more intuitively and easily in the process. 


 

 

 


Insight: 

2.7 Knowledge Sharing 

2.7.1 Context & Challenges 

Cities too often share what they wish others to see  the good things. Real gains, however, also 
come from sharing what went wrong in a more open manner. Industry typically remains closed to 
cross-industry sharing, assuming more is unique than is often the case. What is shared could also 
frequently benefit from improved structure; from more focus on the evidence of achievement; and 
from a better means to compare initiatives respecting the different contexts of cities. 

Sharing knowledge about new ideas and technical solutions, what works on the ground and what 
doesnt, is vital to ensure a broad uptake of innovative solutions. A lot of good practice and 
established methods of knowledge sharing already exist; including staff exchanges between city 
administration, mentoring, and peer reviews. However their application is too patchy, and too slow. 
These can be applied and further developed in different policy areas, governance levels, and sectors. 
This can help ensure knowledge on innovations is rapidly fed through administrative and sector 
systems. 

2.7.2 Ambitions 

Knowledge sharing must be facilitated, and take place at all levels  from international to local  and 
across sectors to maximise the impact and benefits of the EIP. Tighter collaboration between groups 
of cities and between sectors is needed. This will help ensure replication and uptake of good 
practices as well as broader engagement. At an international level, city networks play an important 
role in networking cities, industry and academia  and facilitate the sharing of good practice and 
knowledge in a wide range of areas. The European Commission also clearly plays a vital role in 
supporting knowledge sharing trans-nationally, also ensuring alignment with Horizon 2020 
ambitions. At national level, member states must ensure that knowledge is shared between 
progressive and emerging cities and businesses. At city level, knowledge sharing must support 
exposure to new solutions, processes, models and ways of working. This will help build capacity 
within city administrations, which is particularly important given increasing integration across 
departments, and with external partners. Innovative solutions must be cascaded down through 
public administrations as well as to smaller private enterprises, to help speed overall uptake. 

2.7.3 Recommended Actions 

1. Increasing transfer of knowledge between cities and their partners is recommended (e.g. via 
conferences), by exploiting and improving on best practices. Encourage life-long learning. 
2. As a quick win, enable 100 short staff exchanges annually from 2014 onwards between 
cities, industries and relevant NGOs; crowd-source best ideas from programme's alumni. 
Repeat regularly. 
3. The appointment of knowledge brokers, at city level, is recommended to ensure the 
transfer between sectors and governance levels. 
4. Initiatives must integrate knowledge sharing activities and replicability from the outset, with 
allocation of resources for that purpose. 



5. A one-stop web-based tool at EU and national level for smart city solutions is also 
recommended to allow city administrations, developers and business to easily access and 
exchange information and ideas about new solutions. 


 

2.8 Baselines, Performance Indicators and Metrics 

2.8.1 Context & Challenges 

There is a multitude of indicator sets in place, but only a few that are generally accepted. The result 
is that cities tend to use those that suit their purposes; and have significant difficulty in making a fair 
comparison between cities  and at times within their own city. 

This Partnership seeks to support cities in becoming more energy efficient, using more renewable 
energy and saving greenhouse gas emissions by stimulating technological innovation, engaging 
citizens and providing innovative concepts, processes, methods and toolsTo create transparency and 
build confidence, all such actions need to be quantifiable against clear baselines such that gains can 
be clearly evidenced  to city leadership and society. Measuring a citys progress can raise societal 
awareness for a low-carbon lifestyle, support industry in identifying new business opportunities, and 
help city administration in coordinating and monitoring the transformation process. For this, a 
comprehensive indicator system, based as far as possible on real data, is needed. 

2.8.2 Ambitions 

Although there are many good indicator systems in place for cities, such as the Reference 
Framework for Sustainable Cities, Global City Indicators Facility, the European Energy Award and the 
like; there is no broadly-accepted indicator system that reflects the smart city approach. 
Developing one would enable cities to self-evaluate and compare their progress. This will require 
unambiguous operational definition of the term smart city from which city indicators can be 
derived, and improved consistency and comparability of urban data among European cities. Greater 
acceptance is also required at city leadership levels to more openly report on progress against 
common agreed indicators. 

2.8.3 Recommended Actions 

1. Develop an agreed indicator system that allows cities to self-evaluate their progress towards 
smartness and compare with other cities in a more reliable manner. To ensure its broad 
scale application, the indicator system should be developed in a stakeholder process that 
engages city representatives and other relevant stakeholder groups, and is supported by the 
European research community. 
2. Any such development must be based and start from existing such systems so to assure 
overall coherence. It should be developed for practical application in European cities, and 
take into account not only the outcomes of the EIP, but also build on experience from 
previous indicator systems for sustainable urban development. Besides the 20 / 20 / 20 
targets, other aspects such as technological innovation, citizen engagement, transparency 
and social inclusion should be taken into account. It should comprise strategic (including 
political) as well as operational levels and be based as much as possible on real data. The 
operational level should be designed as an open framework allowing integration of future, 
and as yet unforeseeable innovation. 



3. The indicator system should enable a city to measure progress in absolute terms over time, 
with reference to a baseline. It should also support relative progress in comparison with 
other cities; although this requires recognition of the different settings of cities (socio-
economic; geographic; political & administrative etc), and consideration of the specifics of 
what is being compared. It is therefore recommended to link the indicator system to a 
typology of European cities. 


 

2.9 Open data governance 

2.9.1 Context & Challenges 

The quantity of data collected globally in the past few years equates to the total volume we had 
amassed in all human history before. We are facing a profound transformation that will remain 
dynamic for many years to come. Such data can come from private, public, societal as well as 
commercial sources and can offer very significant potential, yet our ability to generate value at scale 
from this is still in its infancy. This must change: we need to speed up from the current 
experimentation stage towards the value adding stage. In doing so, it is vital to understand: what 
tools will help deal with the massive volumes; how to incentivise data owners to make pertinent 
data available to third parties; how to work with varying data quality and what formats will best 
support data interoperability; how to ensure that citizens and city officials have the right skills and 
understanding of data so that it can be effectively used; how to manage perceived and real privacy 
issues; how to offer customers a choice in data usage; and what regulations and policies must 
change. This is both an open data and a big data challenge. 

2.9.2 Ambitions 

By 2020 the data value chain in Europe will be developed at an industrial scale, data recognised as 
one of the key enabling resources of the 21st century with its quality, transparent accessibility and 
openness as well as conformity to shared formats ensured by design. Open and standardised data 
will have been recognised as the most economical way of achieving interoperability across a city's 
sectors and services. Citizens' trust into data-sharing arrangements will be secured through clear 
agreements defining which data is made public, which data is not, and how advanced anonymisation 
techniques will guarantee adequate privacy. A well-developed ecosystem of innovative industry and 
SMEs will develop new families of value-added services and applications drawing on and integrating 
this data across sectors and sources with a focus on (real-time) visualization and decision-support 
tools so that cities and citizens may make better informed decisions every day. Open repositories 
integrating data at all levels (local, regional, national, EU) will foster cross-cutting innovation and co-
creation of services in smart cities. 

2.9.3 Recommended Actions 

In order to progress in reaching this next stage, radical changes must happen: 

1. Drive cultural change: relevant data from public and private sources should be considered 
open by default, and thus be made readily available also to third parties - with adequate 
anonymisation measures ensured by design; a focus should be put on building applications 
with a clear added value to citizen to make good use of this data. 



2. Greater accessibility and readiness for integration of (open) data from the three principal 
source types (public, private and societal) along the lines and beyond the Directive on the re-
use of public sector information14 
3. Innovative forms of engagement of (open) data providers  with large-scale 
experimentations integrating the various dimensions of cities, data and partnerships 
4. High-level services to be developed on top of open data models for interoperability 
(integration) across a city's sectors and services, visualization and data aggregation (at levels 
from districts, communities, to cities, regions, region clusters, etc.) 


14 Directive 2013/37/EU 

 

2.10 Standards 

2.10.1 Context & Challenges 

Standardisation can provide confidence in the market as it can support industrialisation of solutions; 
align approaches between city systems; speed replicability, and help to create scale. As such, 
different forms of standards (guides, frameworks, protocols and technical specifications) must be 
employed appropriate to the life-cycle of any system. Specific to smart cities, the variety of systems, 
the increased integration across them, and the dynamic and growing volumes of shared data, 
present a particularly challenging context. The lack of a common agreed means to support 
interoperability across city systems is inhibiting cities from confidently making advancement to: 
optimise real-time multi-modal transport data; integrate renewable energy sources into the grid and 
enable more dynamic operations; reduce variation in building systems; really exploit location-based 
information; increase citizen participation, or provide common platforms for developers. 

2.10.2 Ambitions 

Developing a holistic framework and programme for smart city standards is necessary, important, 
and non-trivial. This may involve both new, and updates to existing documents, presently managed 
by various international, European and national standardisation bodies. 

A reference architecture into which standards can fit would enable interoperability between city 
systems and entities at many levels. New standards for Smart Cities should be developed swiftly with 
full consultation and agreement from relevant stakeholders, and with the principle of adoption / 
adaption of existing materials. Examples of such include: internet protocols (IPv6), data formats 
(jpeg, xml), radio frequency identification (RFID) tags, and building energy performance standards. 

2.10.3 Recommended Actions 

1. The CEN-CENELEC-ETSI Smart Cities Coordination Group should set up a dedicated common 
technical committee and be closely involved in implementing the work of this Partnership, in 
a manner similar to the Smart Grid Coordination Group. 
2. The present existing/planned standards landscape for smart cities and communities should 
be mapped out and gaps identified, involving various other stakeholders and consortia to 
participate in this process. 
3. A common architecture for smart city information platforms should be developed to 
demystify and accelerate adoption of interoperable information platforms in cities. 



4. Europe should be active at international / global level on standardisation matters (e.g. with 
ISO or the International Telecommunications Union) so to maintain Europes pre-eminence 
in standards development, and promote Europes competitive advantage in the 
development of Smart Cities and Communities. 


Funds: 

2.11 Business Models, Procurement and Funding 

2.11.1 Context & Challenges 

In most cases, new investments will be needed to generate the broad uptake of smart city solutions. 
However, due to the economic crisis and increased demand for public services (demographic 
change, care, transfer of tasks from central government levels etc.), the public sector  locally and 
centrally  has limited budgets. This means that new market-oriented and sustainable strategies of 
public-private cooperation must be developed and cities must seek greater levels of external 
investment. The investment community seeks certainty, and scale. However, most cities, at an 
individual level, presently deliver neither of these. Continuing 'business as usual' will not create 
enough value and scale for city administrations, cities, businesses and solution providers. 

The goals developed in the vertical priority areas cannot be achieved in traditional ways, for several 
reasons. Firstly, there is a need for smart solutions that are developed in collaboration between 
citizens, local and global industries, municipal utilities and the local public agencies  this often 
defies conventional procurement and tendering procedures. Secondly, although solutions must be 
local, such typically small-scale individual solutions are unnecessarily expensive and preclude the 
development of a business case for innovative smart city solutions at pan-European scale. Finally, 
the matching and combining of complex city needs with industrial needs for longer term process and 
product innovation can be improved significantly. 

2.11.2 Ambitions 

Smart cities will integrate local solutions within a European or global market, by aggregating local 
demand and developing common solutions. 

Business models for smart cities and communities should consist of a more modular approach to 
local ecosystem solutions, which can be used in cities throughout Europe, and thus define a 
European market for smart city solutions, technologies and products. Local ecosystems are 
collaborations between industry, governmental bodies and citizens to meet specific local goals. 

Financing of smart city solutions will be possible, if investments in smart assets are used for lowering 
the operational expenditure. Investments from different stakeholders can be combined, making cost 
per implementation more affordable, by creating a European market for broadly usable solutions 
(aggregated demand), and ensuring a long-term perspective for investments. Citizens should be also 
involved in innovative crowdfunding mechanisms15, in order enhance their sense of awareness by 
getting tangible outcome from smart cities initiatives. 

15 EC public consultation on crowd funding http://europa.eu/rapid/press-release_IP-13-906_en.htm?locale=en 

Procurement procedures need to be changed and new procedures need to be developed. For smart 
city solutions, cities need to participate in local governance entities, with joint ventures and joint 
investments. Cooperation between cities, aggregating targets and requirements across Europe, 


engagement and stimulation of technological providers along industrial value chains (e.g. from 
production of new materials to new ICT systems solutions, or systems to store energy) hold the 
potential to drive innovation much quicker into smart cities. This requires new forms of public 
procurement of innovation and engagement with industries. 

2.11.3 Recommended Actions 

1. New business models with innovative local partnerships and adapted procurement -. Enable 
cities to create local ecosystems: collaborations between industry, governmental bodies and 
citizens to meet specific local goals, with a valid business model addressing financial and 
non-financial value. 
2. Create a European market for innovation that opens up investment. By creating a European 
system that incentivises and qualifies local ecosystems that are viable at local and European 
levels, they can bring innovative solutions that address specific city needs, and also add 
value towards addressing European challenges as a whole. By sharing solutions, more cities 
can apply similar approaches, and benefit from common designs and innovations. This will 
create scale, thus lowering costs and create a stronger business that can more readily attract 
investors. 






 


3 Implementation  Making European Cities & Communities Smarter 

3.1 A Commitment to Pace, Scale & Value 

This SIP seeks to accelerate action; make an evidence-based step-change clearly visible; and do so at 
scale. This will require far greater collaboration within and across areas; a change to some traditional 
and complex city value chains; and the development and application of more common co-created 
approaches  implemented together, or at minimum repeated across Europes cityscape. In doing so 
we will create a more buoyant cities market that attracts funders and innovators. This is not only 
good for those that live in, work in, and visit our cities  it will also be good for the European 
economy in and beyond Europe. 

Cities face chronic profound budget and economic pressures, and recognise the risk of non-
attainment of 20/20/20 goals: a setting common to all. Cities are also at different stages in their 
smart city development. However, cities are becoming the new units of change in our urbanising 
world. So, although the task of implementing this SIP, and its supporting Operational Plan, is not a 
trivial one, there are clear drivers to do so  and in doing so, do it differently  recognising the vital 
role that cities play in achieving and sustaining our goals. 

To move forward at accelerated pace in such a heterogeneous and complex landscape requires 
commitment and clarity of actors and roles. New forms of alliances are of utmost importance to 
ensure trans-sectorial approach. Different industries must come together, and current competitors 
must increase the level of collaboration. Likewise, cities may need to work more across their own 
administrative boundaries, and increase collaboration with other cities  in developing common 
approaches, common designs, and common solutions. The result of which will deliver scale and 
greater certainty, which will reduce risk and help attract investment. 

The members of the High Level Group commit to support, promote and implement the actions of 
the SIP within the limits of their competences. It invites EU institutions, public bodies at all levels, 
industries, city networks, and academia to proactively contribute to make demonstrable 
improvement. 

3.2 Making Implementation Happen 

The concept of Lighthouse Initiatives is proposed as an important new vehicle to support success 
in deploying smart city solutions that will enable (over-)achievement of 20/20/20 goals, across the 
three domains of: urban mobility; districts and built environment; and integrated infrastructures. We 
propose to establish city-groupings that will commit, together with industries and other 
stakeholders to develop new solutions based on integrated technologies across the ICT, energy and 
mobility sectors so to develop common smart city solutions to address cities' needs. In doing so, and 
to optimise later scale-up, these city groupings should to deliver common frameworks and designs, 
and importantly also evidence the value these solutions deliver. An early on dialogue between these 
players has to be established and promoted under the Strategic Implementation Plan. 

A process to form lighthouse initiatives should be established, that also ensure they address the key 
actions noted in this SIP. This will require collaboration between the European Commission, Member 
States and Industry, as well as the involvement of cities and research institutions. Over the next 7 
years, we envisage a portfolio of at least 20 - 25 lighthouse projects each with approximately 6-10 
cities (and partners), which have the potential for Europe wide roll out  dependent on levels of 
commitment, and access to / creation of funds. Successful lighthouse initiatives will provide a solid 
foundation and give confidence to other cities, in the knowledge they can apply tested solutions 
(and that have already attracted investment)  that will be better, faster, and cheaper to implement. 

Success also requires action on the enabling themes discussed. We must target the main hurdles 
that stand in the way of innovation, replication, collaborative solutions, and rapid scaling in the EU  


and work jointly with cities, as well as (EU and national) regulators, policy makers, industry and 
academia to develop appropriate solutions. So the likes of: exploiting modern ICTs to engage civic 
society to change habits; agreeing common protocols for information exchange (city information 
platforms); setting up cross-agency integrated planning boards; creating innovation zones - 
incubators in cities where policy and regulations can be altered to foster innovation and increase 
pace of change; and applying new business models, will all be vital to success. These enabling actions 
will help strengthen capacity in cities as well as industries and SMEs and ensure that they can 
progressively support actions beyond these three vertical domains. 

A number of principles will ensure focus and alignment in implementation: close cityindustry 
collaboration; outcome and user-centric approach to service design; open governance and 
information principles; inclusive and balanced SME participation; integration of physical and digital 
infrastructures; actively seek to innovate, learn, and share knowledge; collaborative governance. 
These should be embodied in the set-up of the lighthouse initiatives. 

3.3 Building the Cities Market 

Action requires funds. Our ambition is to attract Investor, Industries, EC, national, regional and City 
funds to back these initiatives  both through conventional and new sources. In principle we seek to 
scale up shovel ready solutions where risk is lower and funds can increase the scale and speed of 
impact. Less mature areas may warrant access to seed funds, and funding structures that adjust with 
time and outcomes. Ideally, EC and other public funds can create the platforms that attract highly-
geared private / investor funds with confidence. 

The European Advantage: this plan recommends various actions at a coordinated European level. 
There is a strong logic for doing so. Coordinated actions that enable increase take up and scale of 
shared integrated smart city solution can create a buoyant new cities market, and deliver significant 
benefit as a result: to European cities, European industry and SMEs, , and most importantly societal 
as well as sustainability benefits. 

Accelerated progress and scaleup will be sustained through evidence of success, which will require 
monitoring and open reporting of delivery of value. Clearly, such an ambitious programme will 
require continued coordination, involving a range of actions and actors to support learning and 
knowledge exchange, and maximise value. The High Level group, Sherpa group, and Stakeholder 
Platform commit their support in this regard. The High Level group is also committed to meet on a 
regular basis to review the progress made, revise this plan as needed and push to overcome hurdles 
for the longer term implementation of the Strategic Implementation Plan. 

The European Commission is invited to respond to this Strategic Implementation Plan (informed also 
by the Operational Plan in development), and consider what actions will help to build the necessary 
momentum that will help transform our cities and reach Europe's 20/20/20 energy and climate 
targets. 

 


