Delivering solutions for a more sustainable future

ISINNOVA provides research services and strategic consultancy to public and private actors pursuing sustainable visions, solutions, and policies.

Five Pillars of Our Approach

1. Anticipate – Apply systems thinking and foresight methodologies to identify emerging challenges, reveal interdependencies, and inform proactive, future-resilient strategies.

2. Integrate – Connect disciplines, sectors, and knowledge systems to foster richer analysis and tackle complex challenges holistically.

3. Align – Ensure research, innovation, and governance processes reflect the values, priorities, and needs of society through ethical, participatory, and responsible approaches.

4. Co-create – Engage diverse stakeholders — researchers, policymakers, citizens, and industry — in collaborative processes to design solutions that are inclusive, relevant, and impactful.

5. Transform – Drive systemic change by translating shared knowledge and co-created solutions into sustainable, scalable actions, supported by continuous assessment to ensure applicability, effectiveness, and long-term value.

Track Record

• 50+ years in the game (and counting).
• Involved in over 130 research projects (ISINNOVA designs, develops, and manages sector-specific & cross-sector EU and global projects)
• 15 staff members with multidisciplinary backgrounds (engineering, statistics, economics, politics, law, social sciences, computer science and media studies)
  

We help people and organisations imagine, work with, and shape their future. 

CIFS is a UNESCO Chair, Copenhagen Chair of The Millennium Project, Member of the Word Economic Forums Global Foresight Network, Teach the Future, Fremtidskoalitionen( Future Coalition for Future Generations), APF and WFSF member.  

FutuRes is an EU-funded collaborative research project. It connects leading European demographers and economists with experts from policy and stakeholder engagement. The FutuRes Policy Lab developped eight qualitative scenarios, which describe possible futures of Europe, centered around the continent's population development. These scenarios are based on sound research data which were connected narratively by policymakers and other experts.

European societies are ageing. This puts strain on labour markets, social systems, families, and intergenerational solidarity. Additionally, crises and shocks occur as a result of the changing global climate, violent conflict and pandemics.

The challenge of the day is to create social policies that are resilient. Resilient in the sense of enduring, flexible, adjustable, but also sustainable, humane and fair. In this, the role of demographic researchers is to analyse population data and to provide data analysis and modelling that can support policy-making for a better future.

FutuRes is directed by Prof. Arnstein Aassve of Bocconi University in Milan, one of Europe’s leading experts on crisis resilience. The project brings together a transdisciplinary group of experts to identify policies for the resilience of Europe’s ageing population. It is funded by the European Union's Horizon Europe Research and Innovation programme.
An exceptional feature of FutuRes is that dialogue between the research team, policymakers and other stakeholders has been underway since the beginning. “Behind us are the days when researchers simply present their findings at the very end of a project”, says Prof. Aassve. Alongside its research, FutuRes will implement a Policy Lab, where scientists will match their research to practical challenges to resilience and aging, and propose knowledge-based policies. Through a series of larger and smaller events across all three years of the project, this transdisciplinary engagement, will shape the FutuRes research and ensure actionable results.

Europe’s research and innovation (R&I) system is facing new challenges as demographic trends reshape societies, economies, and labour markets. With ageing populations, shifting migration patterns, and evolving skill demands, it is crucial to anticipate how these transformations will impact education, research careers, innovation ecosystems, and funding landscapes.

This commissioned study for DG RTD under the Foresight on Demand Framework Contract seeks to develop scenarios until 2050, and to understand the implications of demographic change on the R&I system. By exploring weak signals, trends and interactions—including the role of emerging technologies such as AI—we aim to identify strategic policy options to support a competitive, sustainable, and fair Europe. The study will provide insights to help policymakers and stakeholders design resilient R&I policies that respond to demographic shifts.

Share your insights in the survey

We seek fresh and diverse perspectives from across the research and innovation community. Your input will help us identify weak signals, early trends, and unexpected ideas that could shape research careers, higher education, and innovation systems in Europe by 2050.

Whether you are noticing shifts in work culture, research or teaching models, funding landscapes, or the impact of technology on your processes — we want to hear from you!

Please take 10-15 minutes and share your thoughts ! The survey is open until April 8.

Supports the economic growth in South-East Europe by promoting innovative solutions and facilitating the transfer of technologies and know-how. 

The first organization in the South- East region to implement foresight methods to shape public policy.

The increase of geopolitical tensions gives rise to several uncertainties for scientific communities and their respective research. On the one hand, the sciences have a role to play in keeping up peaceful cooperation between national or regional rivals (science diplomacy). On the other hand, questions of dual use and research security become ever more relevant across fields as both hot and cold conflicts emerge.

 
The Futures of Science and Conflict workshop (March 27th, 2025, 10:00-13:00 CET) will gather experts from multiple fields to share and discuss the factors, trends, and topics that will shape the future role of scientists, their research, and their working relationships in times of increased geopolitical tensions and conflict. During the workshop, participants will co-create scenarios outlining the challenges and opportunities presented by uncertain futures. This workshop is organised through the Eye of Europe project – a Horizon Europe funded CSA initiative. 

The workshop will undertake the following activities
• Influencing Factor Assessment Survey (pre-workshop, ~15 min.)
• Discussion of Factor Assessment
• Co-production of Scenarios
• Discussion of challenges, opportunities, and implications for research and innovation ecosystems

Transportes, Inovação e Sistemas (TIS) is an independent Portuguese consultancy (SME) with over 30 years of experience in the market. With offices in Lisbon and Porto (Portugal) and Fortaleza and São Paulo (Brazil), TIS provides expertise and decision-making support on policies, planning, economic evaluations, and operations across all transport sectors. This includes transport infrastructure, policies, economics, modeling, and market studies.

TIS has extensive experience working with the European Commission, the European Parliament, EU agencies (e.g., EMSA and EUSPA), and multilateral organisations such as the EIB, UNDP, UNECE, and the World Bank, both as a sole contractor and as the leader of large consortia. Additionally, TIS has in-depth knowledge of TEN-T policy and has coordinated the TEN-T Atlantic corridor since 2014, actively contributing to transport infrastructure and mobility planning at the European level.

The company has significant expertise in conducting fact-finding studies, fitness checks, evaluations and impact assessments for various EC Directorates-General, incorporating foresight methodologies to ensure that EU legislative work remains future-proof. This forward-looking approach to policy objectives and regulatory developments is also applied in research and innovation projects.

Welcome to the second issue of Horizon Futures Watch, bringing you a fresh batch of articles revolving around the latest foresight developments in Horizon projects and beyond. Two new themes are treated in this issue: Tackling security concerns and the future of Science for Policy. 

The ‘Tackling security concerns’ section goes beyond the scope of the Futures4Europe platform foresight project on the ‘interpenetration of criminal and lawful activities’ and explores new needs that arise for fighting crime and countering hybrid threats as a result of rapid technological developments. 

The Science for Policy theme explores novel approaches taken to support the democratic process through evidence-based methods for policymaking.  

We open this issue with an up-to-date selection of news on foresight projects and publications. The Foresight in the Field section presents the application of foresight in EUROPOL’s European Innovation Lab to support law enforcement agencies around the EU.

FCT, ISEG - Lisbon School of Economics and Management and the European Commission (Directorate-General for Research and Innovation) promoted, on December 5, a workshop with the active participation of representatives from all sectors of the National Research and Innovation System (R&I), and representatives of European states participating in this MLE-Mutual Learning Exercise, in order to discuss and agree on possible guidelines and joint work with a view to an institutionalization of capabilities and the creation of foresight communities in this system.

The following day, December 6th, FCT hosted the meeting of this network that has, besides Portugal, representatives from Austria, Belgium, Czech Republic, Finland, Norway, Romania and Slovenia.   

The EU Policy Lab is a space for cross-disciplinary exploration and innovation in policymaking. We apply collaborative, systemic and forward-looking approaches to help bringing the scientific knowledge of the Joint Research Centre into EU policymaking.

We experiment with the new, the unprecedented and the unknown. We seek to augment our understanding of the present, challenge and reinvent the way we think about the future.

The EU Policy Lab is also a mindset and a way of working together that combines stories and data, anticipation and analysis, imagination and action. We bring new practical and radical perspectives to tackle complex problems in a collaborative way. Together, we explore, connect and ideate to create better policies.

The Competence Centre on Foresight is part of the EU Policy Lab and supports EU policy making by providing strategic and future-oriented input, developing an anticipatory culture inside the European Commission, and continuously experimenting and developing different methods and tools to make foresight useful for decision making processes. 

Foresight on Demand (FOD) is a rapid foresight response mechanism organised in a framework contract, and aims at providing quick forward-looking inputs to policymaking by leveraging the best available foresight knowledge. It addresses the growing need for quicker and more responsive foresight to inform policymaking in an increasingly turbulent environment.

Representatives of all twenty FOD partner organisations and representatives of different client authorities met in person during a lunch-to-lunch meeting in Brussels taking place at IDEA consult premises from October 10 to October 11, 2024.

47 people participated in the meeting that focussed on getting to know all FOD partners, especially the new partner organisations of FOD II, gaining insights on expectations of client authorities, as well as on updating the FOD consortium on ongoing and upcoming requests and discussing the FOD service provision processes. The meeting offered the opportunity to exchange in group discussions, during the FOD partner art gallery, where partners presented their organisations and services through art pieces and creative work, and informally during lunch, coffee and at the social dinner.

The meeting revealed inspiring insights on lessons learned during FOD I (2019-2023), on promoting the FOD framework for potential projects, as well as on emerging topics potentially relevant to the current FOD II (2024-2028) period.

The vision of FOSTER is to build a foundation from which a new Knowledge and Innovation System (KIS) for Europe’s food system can emerge. The current structure is insufficient to address the emerging challenges of nourishing people in a healthy and sustainable way. Key objective is to gain insights into how it can be built to be more inclusive and better governed. 

FOSTER shall help to transform Europe’s food system outcomes and will achieve this by: 

• building a FOSTER Platform including food system-state of the art knowledge, foresight by semi-automated Horizon scanning, trend and threats-analysis and new multi-dimensional scenarios of EU food systems to 2040; 
• implementing the FOSTER Academy – including four Summer Schools – for integrating food system-related disciplines and citizen science to enhance food system understanding across the ERA; 
• initiating and assessing a co-creation and co-learning process within six national resp. regional Citizen Driven Initiatives (CDIs), in which new knowledge, strategies and Action Research Agendas are gained; 
• scaling out and deep CDIs solutions and approaches to other territorial contexts; 
• studying different R&I mechanisms of policy support for mission-oriented R&I policy for food systems transformation, and analysing and ground-proofing them in each CDI; 
• strengthening science-policy interfaces by co-learning processes with external experts and developing recommendations for food systems R&I policies tailored to different geographies and sectors; 
• identifying the trigger points to help ‘unlock’ system lock-ins and support further dynamics towards system transformation; 
• and applying reflective monitoring on all FOSTER’s co-learning activities to develop insights into how the KIS can be broadened from an agricultural-KIS to a food system-KIS.
  

To inspire adoption of FOSTER learnings, over 20 workshops and a final conference will be conducted; scientific position papers and policy briefs will be widely communicated. 

Arctik is a Brussels-based communications agency recognised for its strategic and creative communication capacity in the field of sustainability. Arctik develops tailored public relations and communication strategies that take both objectives and resulting impact into account. We facilitate the creation of communities and networks that contribute towards circulating content, whilst cultivating meaningful dialogues and synergies between influencers and decision-makers.

Arctik has substantial experience in designing and implementing communication campaigns and projects which mix creative communication and sustainability. We believe in communication campaigns which provide a setting where opportunities are created, and knowledge is shared between actors. It is an occasion to convey a message and collect insights and intelligence.
Our team has a strong commitment to sustainability. We incorporate sustainable values into operations Arctik has substantial experience in designing and implementing communication campaigns and projects which mix creative communication and sustainability. We believe in communication campaigns which provide a setting where opportunities are created, and knowledge is shared between actors. It is an occasion to convey a message and collect insights and intelligence. and consider environmental and social factors in every business decision, while encouraging our partners and clients to think circular! Arctik is also registered to obtain the Brussels ‘Enterprise ecodynamique’ label. 

Arctik, as part of Technopolis Group is present in more than 10 countries with 300 consultants originating from +45 countries and speaking +30 languages. This diversity offers a unique perspective on what local-level stakeholders are receptive to. 

Our offices are located in : • Austria • Belgium • Colombia • France • Germany • Ivory Coast • Netherlands • Greece • Portugal • Sweden • Ivory Cost • Colombia • United Kingdom.

Our solutions: Strategy • Messaging and copywriting • Online and offline engagement • Thought-provoking design • Web services • Project Management • Video and animation • Data-driven communication • Events • Social media campaigns & monitoring • Knowledge management and Capitalisation • Media and visibility.

Our expertise: Regional Policy, Circular Economy, Climate Services, Education, Entrepreneurship, Science & Innovation.

Arctik is part of Technopolis |group|
Website www.arctik.eu
LinkedIn linkedin.com/company/arctik/
Bluesky bsky.app/profile/arctik.eu 

The third Horizon Futures Watch Workshop on the Future of Science for Policy in Europe took place on 28th June 2023. 

The workshop began with a presentation by members of the Foresight on Demand Consortium, aiming to explore the future of science for policy and more specifically knowledge exchange processes between knowledge actors and policymakers, with the intention to produce scientifically informed policy in Europe. The presentation outlined scenarios rooted in developments, trends, and drivers that are currently underway providing a glimpse into potential characteristics that might define the landscape in the 2030s. The scenarios were developed around two key dimensions for the governance of science: the extent to which government directs science and the extent of stakeholder engagement in the shaping of scientific agendas. Drawing from previously identified trends such as Citizen Science, Open Science, Mission-driven research and innovation, and data-driven policy, the team identified five scenario narratives as shown below.

All scenarios, departed from trends already identified within the European R&I system and opened the floor for in-depth discussions concerning the future Science for Policy and policy governance. The discussion that ensued between the speakers and the workshop participants raised points about the future of science for policy and the potential evolution of current R&I policy: 

Foresight and Science for Policy: Certain scenarios speculated that Foresight will not, in the future, be practiced as it was before – as a response to crises – but will be integrated in political agenda setting for R&I. This could render traditional Science for Policy redundant, as it could become an intrinsic element of policy initiatives. In this setting, scientific advice would be co-created through diverse frameworks rather than coming from a single institutionalized source. 

Mapping Scenarios: During the discussions, the intricate nature of European R&I systems was highlighted. Participants proposed that Member States be encouraged to undertake similar scenario-building exercises, which can have the benefit of drawing all relevant stakeholders around the table. This approach could enable the creation of viable roadmaps based on these scenarios and assess the alignment of these streams with National and European initiatives.

Addressing Systemic Failures in Science and Democracy: The discussion also touched upon the democratization of scientific processes leading to considerations about cultivating openness and transparency and encouraging the multidisciplinary nature and the involvement of actors beyond just the scientific realm. Bio Agora, for example, which aims to develop the Science Service for European Research and Biodiversity Policy Making, actively contributes to breaking the silo thinking in science, society and policy, and showcased its approach in a subsequent presentation. Similarly, the PHIRI project (Population Health and Research Infrastructure, PHIRI) presented its approach for best gathering available evidence for research on health and well-being of populations impacted by Covid-19. Through the input gathered from various stakeholders in different member states, PHIRI showcased how they adopted a multi-stakeholder approach to develop scenarios that are insightful for understanding the challenges for public health in the short and long term using the expertise of people from diverse backgrounds. 

Indeed, audience feedback suggested broadening the scope of the prospective analysis conducted on the Future of Science for Policy. This expansion could encompass the involvement and contributions of stakeholders in policy governance who extend beyond the scientific community. This approach aims to achieve a more comprehensive and systemic understanding of the subject matter. 

The project presentations further led to insightful conversations on the strategic significance of Foresight and collaborative governance methods as valuable aspects for addressing deliberative issues, including:

• The concept of Temporality: While it is essential to strive for a better understanding of the future, equal emphasis should be placed on comprehending the present. As Henk Hilderink, Public Health Foresight Expert at the Dutch National Institute for Public Health and the Environment (RIVM) said: "If we wait until we understand what the present is, then we are never going to look at the future”.
• Collaborative governance methods: Discussions revolved around identifying the appropriate Collaborative Governance Practices. This entails a keen focus on leveraging Emerging Technologies to facilitate methods conducive to achieving collaborative multilevel governance.

In this brief, we explore practices and processes by which information should be exchanged between knowledge actors and policy-makers with the intention to produce scientifically informed policies in Europe. We can see an increasing prominence of science in many public debates and the increasing willingness of governments to mobilize scientific and other advice mechanisms in the context of public debate.

The aim of science for policy is to produce actionable science, however, the level of control over those producing the knowledge and their responsibility for the consequences of the action is a matter of important societal dispute. Debates and interactions in the political and public space encompass interest-driven channels of communication, including scientific advice but also lay knowledge.

Therefore, science for policy needs to integrate knowledge from different sources and this requires building connections and relationships between actors from different scientific disciplines and across public administrations, affecting both the nature of science and the nature of policy-making. Science for policy may face adjustments in its modes of operation and its formats of interaction, which – at times – may well be at odds with the dominant empirical-analytical perception of science.

We make a deep dive into developments which are currently underway in the realm of research and innovation policy, and which can take us to different futures, including events largely unpredictable and decisions bound by constraints of diverse nature. We identify possible policy implications based on five scenarios of the future (in 2030), which highlight different types of science for policy ecosystems:

• Scenario A on societal-challenge-driven and mission-oriented research and policy provides the context for advice mechanisms to policy. Such a context can be amenable for scientific advice but it also entails risks for science.
• Scenario B on participatory science and policy support ‘under construction’ opens up the discussion on broadening the sources of evidence; why and how to include new types of actors beyond the ‘usual suspects’ (well-connected experts). This has implications for how to promote science and develop the policy support system. 
• Scenario C on data enthusiasm and AI overtaking scientific policy advice illustrates the role of data, AI and international governance challenges and it alarms about over-reliance on multinational data providers, which may lead to a loss of transparency, autonomy and (normative) reflection in scientific advice. We should ask whether technology can be neutral, and whether scientific advice can be normative. 
• Scenario D on open science and policy support points out that open science is not the same as open scientific advice whereby experts can speak frankly. Useful scientific advice has characteristics of a protected space where also unpopular (but well-founded) opinions can be voiced. 
• Scenario E on policy-based evidence-making in incumbent-driven industrial policy increases weight on advice mechanisms and embedding data, evidence, and experimentation within government agencies, and government research and regulatory organisations. 

This report summarizes the results of a foresight process that started at the end of 2020 with the goal to develop reference foresight scenarios. Foresight scenarios are a tool to improve strategy development and decision making in a context of turbulence, uncertainty, novelty, and ambiguity. Recent events, such as the COVID pandemic or the Russian invasion of Ukraine, made clear that being prepared for the unknown and unexpected becomes increasingly important. The reference scenarios presented in this report aim to help decision makers to increase the preparedness of their organisations under increasingly unpredictable circumstances.

The Reference Foresight Scenarios report from the European Commission Joint Research Centre (JRC) summarizes the results of a foresight process that started at the end of 2020 with the goal to develop a set of reference foresight scenarios to support policymakers. Foresight scenarios are a tool to improve strategy development and decision making in a context of turbulence, uncertainty, novelty, and ambiguity. Recent events, such as the COVID pandemic or the Russian invasion of Ukraine, made clear that being prepared for the unknown and unexpected becomes increasingly important. 

The reference scenarios presented in this report aim to help decision makers to increase the preparedness of their organisations under increasingly unpredictable circumstances. The scenarios are four plausible versions of how the world may look like in 2040 and what this would mean for Europe’s global standing. They are called Storms, End game, Struggling synergies, and Opposing views. They do not claim to predict or project how the future may look like but offer strategic reflections, which can serve as a compass for policymakers for navigating through unchartered territories of turbulence, uncertainty, ambiguity and novelty. These four geopolitical scenarios are called ‘Reference’ Foresight Scenarios because they represent a forward-looking framework that provides a reference for use in policymakers’ debates about potential futures.

Stress-testing policy options with the scenarios

The work with the reference foresight scenarios continued as a pilot process of stress-testing some policy options against a set of Reference foresight scenarios. The process was led by the European Commission’s Joint Research Centre (JRC) and applied to a specific EU policy proposal on Standard Essential Patents. The process ran during the initial stage of the impact assessment process, but it was not an official part of it. The results of this pilot helped to understand which policy options are more or less robust and how they can be made more future-proof. The process also provided rich insights into what the challenges and opportunities of this approach are, and into how stress-testing can be further incorporated into EU policymaking. The report provides an example and serve as a guide for any future process of stress-testing policy options against foresight scenarios.

Airborne transmission is considered one of the most common ways of transmitting respiratory viruses. The reach of airborne pathogens and persistence of aerosolized particles suspended in the air are a significant concern for the spread of pandemic and seasonal respiratory diseases. This is particularly relevant in indoor spaces where most respiratory infections occur. Controlling the transmission of airborne pathogens is therefore a cornerstone of public health efforts to manage and prevent the spread of infectious diseases, ensuring safety and health for individuals and communities. Technologies that allow such control are essential to address the challenge.

This report is the output of a comprehensive study which evaluates the potential of the current technology landscape for suppressing indoor airborne pathogen transmission. The analysis outlines two main technology groups: those for detecting airborne pathogens and those for decontaminating air and surfaces. It identifies several key technologies in each group, and assesses their maturity, impact, and potential priority for funding. It outlines the drivers, enablers, and barriers for the development and adoption of these technologies, providing insights into factors that may influence their future implementation. It also explores forward-looking perspectives with scenarios for future health crises and offers recommendations for policy and research to address the challenges and leverage the opportunities in the field of indoor air quality.

This report, part of the FUTURINNOV project—a collaboration between the European Commission’s Joint Research Centre and the European Innovation Council and SMEs Executive Agency—provides the second literature review of third-party reports, in a continuous workstream that surfaces periodically cross-sector emerging technologies and breakthrough innovations.
It summarises findings in a final selection of 30 signals and trends through an iterative methodology focused on their potential impact and novelty.
These findings are categorised and analysed across the 10 critical technology areas defined by the European Commission, as well as through other frameworks such as the Strategic Technologies for Europe Platform and the EIC’s portfolios and specific taxonomy.
The report concludes with a cross-cutting analysis and offers recommendations to support the EIC’s strategic intelligence, particularly in prioritising innovation funding.
Additionally, it aims to raise awareness among EU policymakers about technological developments that may not yet be widely known.

This report documents the process and findings of a horizon scanning exercise, part of a series under the FUTURINNOV (FUTURe-oriented detection and assessment of emerging technologies and breakthrough INNOVation) project, a collaboration between the European Innovation Council (EIC) and the Joint Research Centre (JRC), aiming to bolster the EIC's strategic intelligence through foresight and anticipatory methodologies.
The workshop, held on 13 May 2024, had as its primary goal the evaluation and prioritisation of trends and signals on emerging technologies and breakthrough innovation, across all technolo-gy readiness levels (TRLs), within the EIC's Advanced Materials portfolio and with a particular fo-cus on their use in the Energy sector.

Signals for the workshop were gathered from experts, literature review, and text/data mining of patents, publications, and EU-funded projects. These signals were then scrutinised for their sig-nificance to the field's future by a diverse group of sector experts which led to the identification of nine key topics: accelerated material design/synthesis; biomaterials as part of the circular economy; advanced materials allowing new applications; closed loop battery recycling; innova-tions in catalysis; organic batteries for sustainable energy storage; design to performance bat-teries; design to cost batteries; and electrochemical water treatment. Furthermore, the workshop identified additional wild cards with high novelty and disruptive potential such as: circularity of materials (safe and sustainable by design); membranes / separators; process optimisation; 3D printing of electrode materials for energy and environmental engineering applications; and use of AI for the study of materials.
Participants also highlighted various factors that could influence the development, adoption, and promotion of these emerging technologies, which can be grouped under the following categories: governance and compliance frameworks; funding; collaboration and knowledge exchange; sustainable and efficient development; infrastructure and technological advancement and limita-tions; industry and market dynamics and constraints; innovation and risk management; supply chain and raw materials; and talent development.

This report documents the process and findings of a horizon scanning exercise, part of a series under the FUTURINNOV (FUTURe-oriented detection and assessment of emerging technologies and breakthrough INNOVation) project, a collaboration between the European Innovation Council (EIC) and the Joint Research Centre (JRC), aiming to bolster the EIC's strategic intelligence through foresight and anticipatory methodologies.

The workshop, held on 24 April 2024, had as its primary goal the evaluation and prioritisation of trends and signals on emerging technologies and breakthrough innovation, across all technology readiness levels (TRLs) and within the EIC's Quantum technologies portfolio.

Signals for the workshop were gathered from experts, literature review, and text/data mining of patents, publications, and EU-funded projects. These signals were then scrutinised for their significance to the field's future by a diverse group of sector experts which led to the identification of nine key topics: quantum sensing; quantum algorithms for lattice-based computational fluid dynamics models; materials for quantum; Artificial Intelligence for quantum; error correction; solid-state scalability; quantum for Artificial Intelligence; quantum as a service – metacloud; and quantum computers. Furthermore, the workshop identified additional wild cards with high novel-ty and disruptive potential such as quantum sensing AI on edge and molecular spin qubits.
Participants also highlighted various factors that could influence the development, adoption, and promotion of these emerging technologies, which can be grouped under the following categories: technical advancements; investment and infrastructure support; cross-sector collaboration; regulatory navigation; talent acquisition; market maturity; and application utility.

This report provides a literature review of publications authored by numerous external organisations. It summarises 34 signals and trends of emerging technologies and breakthrough innovations across the 11 primary categories of a taxonomy defined by the European Innovation Council (EIC). The authors investigate not only what is deemed most novel in multiple application domains but what is worth the attention of European Union (EU) policy audiences involved with priority-setting and decision-making.

This work that has led to this literature review (1) reviews and evaluates 186 reports and articles on emerging technologies, (2) captures 489 signals, of which 86 have been short-listed and 34 selected for this report, (3) creates an internal database of signals which is used to digest and analyse the evolution of signals and novel technologies (4) connects signals with EIC portfolios and other European Commission (EC) initiatives such as policies surrounding critical technologies and Strategic Technologies for Europe Platform (STEP) investments that, together with the primary and secondary levels of the EIC taxonomy, provide multiple types of analysis and insights (5) draws conclusions that aim to support the EIC’s funding prioritisation and additionally, provide reflections on EIC portfolio setting.

By using the best publicly-available data to produce a harmonised internal database, along with an appropriate filtering and selection methodology, the authors aim to provide a support platform for future-oriented technology analysis of relevance for other EU policy-making initiatives.

The FUTURINNOV project run by European Commission Joint Research Centre (JRC) supports the European Innovation Council (EIC) in building strategic intelligence capacity through foresight and other anticipatory approaches. This is done through activities to identify funding priorities, inform programme design, contribute to policy feedback, and develop institutional governance. 

The main objectives are to:
• Provide short and medium-term future-oriented evidence-based advice on signals and trends of emerging technologies, breakthrough innovation, and investment patterns;
• Support the development of long-term EIC strategic intelligence, grounded in anticipatory, collective, and hybrid methods, towards knowledge transfer and capacity building; and
• Explore innovative anticipatory thinking and future-oriented methodologies to support EIC in its mission as a funding body and a knowledge- provider for policy design and implementation.
The project started in the beginning of the 2024 and will run until February 2025. Outputs of the FUTURINNOV project will include three literature reviews identifying and analysing signals of emerging technologies and breakthrough innovations as well as findings from horizon scanning workshops.

Eyes on the Future - Signals from recent reports on emerging technologies and breakthrough innovations to support European Innovation Council strategic intelligence - Volume 1

The report provides a literature review of publications authored by numerous external organisations. It summarises 34 signals and trends of emerging technologies and breakthrough innovations across the 11 primary categories of a taxonomy defined by the European Innovation Council (EIC). The authors investigate not only what is deemed most novel in multiple application domains but what is worth the attention of European Union (EU) policy audiences involved with priority-setting and decision-making. The literature review

(1) reviews and evaluates 186 reports and articles on emerging technologies,
(2) captures 489 signals, of which 86 have been short-listed and 34 selected for this report,
(3) creates an internal database of signals which is used to digest and analyse the evolution of signals and novel technologies
(4) connects signals with EIC portfolios and other European Commission (EC) initiatives such as policies surrounding critical technologies and Strategic Technologies for Europe 

Platform (STEP) investments that, together with the primary and secondary levels of the EIC taxonomy, provide multiple types of analysis and insights(5) draws conclusions that aim to support the EIC’s funding prioritisation and additionally, provide reflections on EIC portfolio setting.  

Read some insights from the authors on the blog. 

Eyes on the Future - Signals from recent reports on emerging technologies and breakthrough innovations to support European Innovation Council strategic intelligence - Volume 2

The second volume of the literature review with 30 selected signals and trends that were considered particularly relevant to the 10 critical technology areas identified by the Commission. Some examples are:
• Neuromorphic chip optimised for energy efficient AI workloads
• Laser-equipped satellites for secure quantum communications
• Possibilities of microgravity bioreactors and 3D bioprinting for regenerative medicine
• Self-consuming rockets to reduce space debris and improve efficiency
• Potential to capture wasted 'reflected' energy from PV systems
• Preparation–free, adhesive skin patches to help people control robotic exoskeletons.

(Dis)Entangling the Future - Horizon scanning for emerging technologies and breakthrough innovations in the field of quantum technologies

This report documents the process and findings of a horizon scanning exercise, part of a series under the FUTURINNOV. The workshop, held on 24 April 2024, had as its primary goal the evaluation and prioritisation of trends and signals on emerging technologies and breakthrough innovation, across all technology readiness levels (TRLs) and within the EIC's Quantum technologies portfolio. Signals for the workshop were gathered from experts, literature review, and text/data mining of patents, publications, and EU-funded projects.
These signals were then scrutinised for their significance to the field's future by a diverse group of sector experts which led to the identification of nine key topics:
•quantum computers
•quantum sensing
•quantum algorithms for lattice-based computational fluid dynamics models
•materials for quantum
•Artificial Intelligence for quantum
•error correction; solid-state scalability
•quantum for Artificial Intelligence
•quantum as a service – metacloud

Furthermore, the workshop identified additional wild cards with high novel-ty and disruptive potential such as quantum sensing AI on edge and molecular spin qubits. Participants also highlighted various factors that could influence the development, adoption, and promotion of these emerging technologies, which can be grouped under the following categories: technical advancements; investment and infrastructure support; cross-sector collaboration; regulatory navigation; talent acquisition; market maturity; and application utility.

Materialising the Future - Horizon scanning for emerging technologies and breakthrough innovations in the field of advance materials for energy

This report documents the process and findings of a horizon scanning exercise on emerging technologies in advanced materials for energy. Signals for the workshop were gathered from experts, literature review, and text/data mining of patents, publications, and EU-funded projects. These signals were then scrutinised for their significance to the field's future by a diverse group of sector experts which led to the identification of nine key topics: 

• accelerated material design/synthesis
• biomaterials as part of the circular economy
• advanced materials allowing new applications
• closed loop battery recycling
• innovations in catalysis
• organic batteries for sustainable energy storage
• design to performance bat-teries
• design to cost batteries
• electrochemical water treatment

Furthermore, the workshop identified additional wild cards with high novelty and disruptive potential such as: circularity of materials (safe and sustainable by design); membranes / separators; process optimisation; 3D printing of electrode materials for energy and environmental engineering applications; and use of AI for the study of materials.
Participants also highlighted various factors that could influence the development, adoption, and promotion of these emerging technologies, which can be grouped under the following categories: governance and compliance frameworks; funding; collaboration and knowledge exchange; sustainable and efficient development; infrastructure and technological advancement and limita-tions; industry and market dynamics and constraints; innovation and risk management; supply chain and raw materials; and talent development.

Imagine the future - Horizon scanning for emerging technologies and breakthrough innovations
in the field of medical imaging and AI

This report documents the process and findings of a horizon scanning exercise, part of a series under
the FUTURINNOV project. The workshop, held on 17 September 2024, had as its primary goal the evaluation and prioritisation of trends and signals on emerging technologies and breakthrough innovation, across all technology
readiness levels (TRLs), within the EIC's Medical Imaging and AI portfolio.
Signals for the workshop were gathered from experts, literature review, and text/data mining of pa-
tents, publications, and EU-funded projects. These signals were then scrutinised for their significance
to the field's future by a diverse group of sector experts which led to the identification of eight key
topics: 

• generative AI for healthcare
• digital twins
• multimodal data analysis
• explainable AI in medical imaging
• application of AI to specific diseases/conditions
• XR - augmented and virtual realities
• tensor-valued diffusion encoding
• AI-generated synthetic data for training AI

Furthermore, the workshop identified additional wild cards with high novelty and disruptive potential such as: blockchain, edge computing and differential privacy for secure, AI-driven medical imaging and collaborative healthcare
optimisation and quantum medical imaging.
Participants also highlighted various factors that could influence the development, adoption, and pro-
motion of these emerging technologies, which can be grouped under the following categories: Tech-
nological advancements and cross-sector applications; data infrastructure, AI models, and regulatory
frameworks; workforce, education and societal factors; clinical efficiency and patient outcomes; trust,
ethics, and AI adoption; financial pressures and industry investment in AI healthcare.

Mobilising the future - Horizon scanning for emerging technologies and breakthrough innovations in the field of mobility

This report documents the process and findings of a horizon scanning exercise, part of a series under the FUTURINNOV project. The workshop, held on 16 October 2024, had as its primary goal the evaluation and prioritisation of trends and signals on emerging technologies and breakthrough innovation, across all technology readiness levels (TRLs), within the broad Mobility domain, broken-down into four key areas: 

• transport systems, networks and multimodality
• automotive and roads
• rail/freight and logistics 
• aviation and airports.

Signals for the workshop were gathered from experts, literature review, and text/data mining of patents, publications, and EU-funded projects. These signals were then scrutinised for their significance to the field's future by a diverse group of sector experts which led to the identification of 22 different key topics across the key areas above. These signals can be seen as hotspots of innovation that deserve the EIC’s attention for possible future support.
Participants also highlighted various factors that could influence the development, adoption, and promotion of these emerging technologies, which are presented in the report as drivers, enablers and barriers, and analysed specifically in each of the 4 key areas.

Securing the Future Horizon scanning for emerging technologies and breakthrough innovations in the field of digital and network security

This science for policy brief documents the process and findings of a horizon scanning exercise, part of FUTURINNOV project. The workshop, held on 13 November 2024, had as its primary goal the evaluation and prioritisation of trends and signals on emerging technologies and breakthrough innovation, across all technology readiness levels (TRLs), within the digital and network security domain. Signals for the workshop were gathered from experts, literature review, and text/data mining of patents, publications, and EU-funded projects.
These signals were then scrutinised for their significance to the field's future by a diverse group of sector experts which led to the identification of eight key topics: 

• deepfake detection
• quantum-resistant algorithms
• interoperability for end-to-end encrypted messaging systems
• privacy and security in virtual reality 
• false data injection attack detection
• inter-satellite communication
• privacy-preserving machine learning
• tiny solar-powered drones capable of near-perpetual flight

Participants also highlighted various factors that could influence the development, adoption, and promotion of these emerging technologies including: tensions between privacy and security, emerging geopolitical threats, technological and regulatory enablers, trust and transparency, and the economic barriers that shape technological development and adoption.

This project aims at:

i) providing timely foresight intelligence and forward-looking policy briefs to the European Commission for purposes of R&I policy on the following topics:

• Futures of interpenetration of criminal and lawful economic activities 
• Futures of Science for Policy in Europe 
• Futures of using nature in rural and marine contexts in Europe
• Futures of Social Confrontations
• Futures of Green Skills and Jobs
• Futures of Big Tech
• Futures of innovation and IP regulation

ii) providing a hub for Europe’s R&I foresight community and a space in which foresight agencies and researchers can share knowledge and tools;

iii) networking EU supported R&I projects with important foresight elements and promoting their results to policymakers, including via Horizon Futures Watch quarterly newsletters;

iv) promoting broad public engagement with foresight for R&I policy, including stakeholders as well as the public and covering all sections of society, from scientists and engineers to policy-makers, artists, intellectuals and engaged citizens.

Successfully managing the green and digital transitions is a crucial factor that could increase the resilience and strategic autonomy of the EU and shape its future. Yet digitalisation of agriculture and rural areas raises vital questions about winners and losers, costs, benefits, and long term implications.


This foresight exercise explores the interplay between digital transition, policies and the resilience of the agricultural sector and rural areas, against the backdrop of potential disruptive and transformative changes. The report presents the outcomes of this exploration, proposing building blocks for an effective EU digital transition strategy for agriculture and rural areas supported by a hands-on policymaker’s toolkit

The blog post reveals the goals and steps of the foresight process and explains how visioning can support transitions. 

In times of growing uncertainties and complexities, anticipatory thinking is essential for policymakers.
Technology foresight explores the longer-term futures of Science, Technology and Innovation. It can be used
as a tool to create effective policy responses, including in technology and innovation policies, and to shape
technological change.

In this report we present six anticipatory and technology foresight methods that can contribute to anticipatory
intelligence in terms of public funding of innovation: the Delphi survey, genius forecasting, technology roadmapping, large language models used in foresight, horizon scanning and scenario planning.

Each chapter provides a brief overview of the method with case studies and recommendations.
The insights from this report show that only by combining different anticipatory viewpoints and approaches
to spotting, understanding and shaping emergent technologies, can public funders such as the European
Innovation Council improve their proactive approaches to supporting ground-breaking technologies. In this
way, they will help innovation ecosystems to develop.

The Joint Research Centre (JRC) and the European Innovation Council (EIC) conducted a series of Horizon Scanning exercises across six EIC programme managers’ (PM) portfolios as part of an ongoing collaborative effort to strengthen EIC strategic intelligence capacity through the use and development of anticipatory approaches. The fields covered include: Space Systems & Technologies; Quantum Technologies; Agriculture & Food; Solar Fuels & Chemicals; Responsible Electronics and Architecture, Engineering & Construction.

The main findings of this Horizon Scanning – the identification and analysis of ‘signals’ from nascent research, technologies, or trends on the periphery of the mainstream – show opportunities for investment in emerging technologies and breakthrough innovations that can advance EU competitiveness while also serving to support the EU’s long-term policy and societal visions.
Other insights were taken from this exercise, namely the identification of drivers, enablers and barriers to technology development and adoption, that could be the starting ground of further foresight exercises and policy initiatives.

The report highlights three main themes – sustainability, energy, and scalability, which are overarching across signals, drivers, enablers and barriers. And concludes with a series of recommendations to streamline Horizon Scanning activities in the specific context and needs of the EIC.

Growing volatility, uncertainty, complexity and ambiguity, present leading challenges in policy-making nowadays. Anticipatory thinking and foresight are of utmost importance to help explore trends, risks, emerging issues, and their potential implications and opportunities in order to draw useful insights for strategic planning, policy-making and preparedness.

This report is a part of the “Anticipation and monitoring of emerging technologies and disruptive innovation” (ANTICIPINNOV) project, a collaboration between the European Commission Joint Research Centre with the European Innovation Council (EIC).

The findings include a set of 106 signals and trends on emerging technologies and disruptive innovations across several areas of application based on a review of key reports on technology and innovation trends and signals produced by public and private entities outside of the EU institutions. Its goal is to strengthen the EIC’s strategic intelligence capacity through the use and development of anticipatory approaches that will - among other goals – support innovation funding prioritisation. Other insights were extracted, namely those related with the scope of the EIC Programme Manager portfolios.

The establishment of responsible innovation requires four key institutional changes. First, innovation must be value-driven. Second, an ethics of co-responsibility among stakeholders must be implemented. Third, innovation should be made directional and manageable. Fourth, market failures need to be addressed to facilitate necessary transformative changes, especially with regard to the Sustainable Development Goals (SDGs). This research project will take into account the evolution of Living Labs and various specialized Living Labs (e.g., urban labs, social labs, and responsible Living Labs) to assess to what extent they address these institutional requirements. On this basis, the concept of a new dedicated Living Lab: a Responsible Research and Innovation Lab for Engineering Practices will be introduced. Subsequently this dedicated Living Lab will be operationalised on a theme from the engineering sciences. We will consider innovations stemming from digital tech for Health issues, additive manufacturing or other engineering pratices. We will deploy participatory foresight, to enable a form of anticipatory governance of emerging new innovations.

This dedicated ling lab is contextualised in a broader context of a deliberative democracy: Living Labs can be seen as spaces for Organisational Learning and Collective Experimentation:Living Labs: ‘real-life test and experimentation environments that foster co-creation and open innovation among the main actors of the Quadruple Helix Model, namely: Citizens, Governmental Organisations, Industrial organisations and Academia’ (ENoLL 2024)It operationalises an important feature of Responsible Research and Innovation: Making stakeholders co-responsible and mutually responsive to each other by engaging them in an open co-creation/ co-enquiry process. (among other on the basis of participatory foresight of emerging technologies and innovations)The idea of 'openess' and 'mutual reponsiveness' as values of actors and institutions will also be subject of analysis.Science and innovation can be better fostered in an open, democratic society than in other types of societies. The norm of civic participation in a ‘democracy’ is a lived ideal for citizens, just as the norm of ‘communalism’ is a lived ideal for the scientific community. Both norms presuppose the values of ‘openness’ and 'mutual responsiveness' among scientist and citizens.This highlights ‘openness’ not as a prescriptive norm but as a value of the institution of science. Simultaneously, ‘openness’ is also an institutional value of a democracy. However, science and democracy are dependent on the extent to which scientist and citizens engage on the basis of these norms. How can we best encourage and incentivise those?

The i-Portunus Houses project, implemented on behalf of the European Commission by a consortium of three partners – the European Cultural Foundation (coordinator), MitOst, and Kultura Nova Foundation – was dedicated to testing and analysing diverse transnational mobility schemes for the cultural sector. Apart from granting support for local hosts from all Creative Europe countries for the mobility of artists and cultural professionals, the project also included research on mobility in culture and the design of policy recommendations.

In the research, the mobility of artists and cultural professionals is understood as the temporary, cross-border travel of artists and cultural professionals with the purpose of creating, connecting, exploring and learning. The research was carried out by experts from different disciplines with Dea Vidović being the research leader. As a result of the aforementioned research, in 2022 Kultura Nova Foundation published a 4-volume publication. Each volume represents one of the research sections: 

(1) conceptual framework of mobility in culture; 

(2) the study on mobility in culture from the perspectives of artists, cultural professionals, hosts and funders; 

(3) an evaluation of i-Portunus Houses mobility grant scheme and 

(4) scenario for the future of mobility in culture.  

The research covers a wide range of topics related to mobility in culture, such as its participatory and networking dimension, its digital dimension and virtual mobility, as well as its green dimension. The culmination of the research, alongside extensive recommendations and action points for sustainable mobility, is Scenario for the Future which introduces a new concept of "slow mobility".

https://culturalfoundation.eu/programmes/i-portunus-houses/ 

https://kulturanova.hr/eng/rampd/projects/i-portunus-houses

Institutul de Prospectiva is a research organisation (NGO) with the mission to stimulate future-awareness aimed at addressing the challenges of contemporary societies. To this end, we implement tailored foresight exercises supporting strategic orientation in the public sector, with a focus on foresight for R&I policy at European and national level.

Prospectiva is part of the Foresight-on-Demand (FOD) consortium, tasked with advising the European Commission and fourteen other EU organisations on science and technology policy programming for a period of four years (April 2024 – March 2028).
This is an extension of the previous successful cooperation within the Foresight on Demand framework contract (2019-2023); during this period Prospectiva has contributed to numerous projects, on components related to horizon scanning, large scale Delphi consultations, scenario building, co-creation workshops, speculative design, and the elaboration of various briefs, in-depth case studies and reports. These projects addressed a range of themes, among which the future of food, of retail, of ecosystems’ flourishing, and even of the human condition.