Responsible Research and Innovation

Responsible Research and Innovation' (RRI) describes a research and innovation process that takes into account effects and potential impacts on the environment and society. The approach is and has been included in European Framework Programmes and has been developed in scientific and technological publications in journals and conferences, as well as in projects. By June 2014, there were at least a dozen international research projects, most of them funded or co-funded by the European Commission, that were involved in developing a Responsible Research and Innovation governance framework.[1]

Definitions

There are several definitions of Responsible Research and Innovation (RRI). RRI "refers to the comprehensive approach of proceeding in research and innovation in ways that allow all stakeholders that are involved in the processes of research and innovation at an early stage (A) to obtain relevant knowledge on the consequences of the outcomes of their actions and on the range of options open to them and (B) to effectively evaluate both outcomes and options in terms of societal needs and moral values and (C) to use these considerations (under A and B) as functional requirements for design and development of new research, products and services."[2] The European Commission (EC) described RRI in an earlier publication as a framework that consisted of six key action points:[3]

  1. Engagement: It implies that societal challenges should be framed on the basis of widely representative social, economic and ethical concerns and common principles on the strength of joint participation of all societal actors - researchers, industry, policymakers and civil society.
  2. Gender Equality: Addresses the underrepresentation of women, indicating that human resources management must be modernized and that the gender dimension should be integrated in the research and innovation content.
  3. Science Education: Faces the challenge to better equip future researchers and other societal actors with the necessary knowledge and tools to fully participate and take responsibility in the research and innovation process.
  4. Open Access: States that RRI must be both transparent and accessible. Free online access should be given to the results of publicly funded research (publications and data).
  5. Ethics: Requires that research and innovation respects fundamental rights and the highest ethical standards in order to ensure increased societal relevance and acceptability of research and innovation outcomes.
  6. Governance: Addresses the responsibility of policymakers to prevent harmful or unethical developments in research and innovation. The latter is a fundamental basis for the development of the rest of the dimensions.

RRI can be defined as "a transparent, interactive process by which societal actors and innovators become mutually responsive to each other with a view to the (ethical) acceptability, sustainability and societal desirability of the innovation process and its marketable products in order to allow a proper embedding of scientific and technological advances in our society."[4]

According to Owen et al. (2012) there are three main features of RRI that overlap to a great extent with the EC Framework:[5]

  1. Democratic governance of the purposes of research and innovation and their orientation towards the "right impacts".
  2. Responsiveness, emphasizing the integration and institutionalization of established approaches of anticipation, reflection and deliberation in and around research and innovation, influencing the direction of these and associated policy.
  3. Framing of responsibility itself in the context of research and innovation as collective activities with uncertain and unpredictable consequences.

According to Stilgoe et al. (2013), RRI has four dimensions:[6]

  1. Anticipation
  2. Reflexivity
  3. Inclusion
  4. Responsiveness

RRI is best understood as a higher level responsibility that aims to shape, develop, and align existing and future research and innovation-related processes.[7] The concept is applied mainly for science and technology-based research and innovation, in particular in the area of emerging technologies—notably nanotechnologies, Information and communications technology (ICT), genomics, synthetic biology and geo-engineering. However, some authors state that RRI could also encompass financial instruments, public policy or community innovations, distribution, service or system innovations.[8]

History

Responsible Research and Innovation is developed as an approach to governing research and innovation at the European Union level. It is "reflected in many high-level policy, strategy and programming documents, such as the objective of the Europe 2020 strategy to create smart growth or the Horizon 2020 programme that defines tackling societal challenges as one of the main priorities."[4]

The term RRI was coined in Europe and the United States in the first decade of the 21st century. Among the first authors who developed this concept from 2003 on were Hellstrom, Guston, Owen, Robinson and others (see the References section below).

At the European level the concept originates from visions for collaborations between social, natural and physical scientists that address the wider dimensions of science and innovation early on. Examples can be found within the 5th and 6th EU Framework Programmes and their calls for socio-technical integration.[9] Specific use of the term "Responsible Research and Innovation" first appeared in a European 6th Framework project on nanotechnology and the life sciences (Robinson 2009). [10] More examples are calls for greater public engagement with science and technology.[11] According to Owen et al. (2012),[5] integrated approaches such as Technology assessment in its various forms, referring to publications from Schot and Rip (1996) and Guston and Sarewitz (2002), and anticipatory governance (see the paper by Karinen and Guston from 2010) are further roots of RRI. They claim that some of these features had been formalised within decision-making processes, such as the so-called "Danish model" for technology assessment based on public participation and deliberation, e.g. through consensus conferences (see [11]).

In the United States of America, many ideas that have shaped science policy emerged from the writings and influence of Vannevar Bush. Bush’s "Science-The Endless Frontier" (1945) proposed a civilian-led body to support research in the interest of meeting national goals. Bush attempted to design a system that pursued fundamental theoretical work and successfully connected it to application and societal needs.[12]

Application and Implementation

The European Commission stated in 2013 that because Responsible Research and Innovation was "a cross-cutting action that is implemented throughout Horizon 2020, 0.5% of the budgets for the 'Societal Challenges' and 'Industrial Leadership' pillars of Horizon 2020 [was] earmarked for RRI/Science with and for Society actions."[13] Innovation and new technologies should meet the global challenges such as climate change and global warming, the efficient use of natural resources, demographic change, global health and development, social cohesion and the maintenance of economic prosperity.[2]

It has been suggested that "Grand Challenges"tightening supplies of energy, water and food; pandemics; ageing societies; global warming; public health and security[14]could be useful as a guiding force for RRI, in particular with regards to the criterion of societal desirability.[4] Another possible foundation for societal desirability with democratic legitimacy could be constitutional values.[15] Constitutional values of the European Union are "respect for human dignity, liberty, democracy, equality, the rule of law and respect for human rights, including the rights of persons belonging to minorities. Moreover, the societies of the Member States are characterised by pluralism, non-discrimination, tolerance, justice, solidarity and equality between women and men."[16] Other values that play an important role in this context are the UN Global Compact's ten principles in the areas of human rights, labour, the environment and anti-corruption.[17] Some member states of the European Union have the ambition to establish their own framework for RRI, so that national criteria and approaches are being developed and implemented. Here are some examples of these national initiatives and their funding in 2008:[8]

Related terms

Technology Assessment

Even though Responsible Research and Innovation draws on the body of knowledge and experience provided by the history of Technology assessment over decades and on the methodological toolbox, it extends the scope of consideration to ethical issues of responsibility and to broader governance and science, technology and society (STS) issues.[18]

Corporate Social Responsibility

The main difference between Corporate social responsibility (CSR) and RRI is that the CSR approach tends to be industry-driven or rather "an expression of corporate strategy, corporate identity, market power".[19] CSR decisions are driven by the values of stakeholders by asking "What do stakeholders care about?". In contrast to that RRI establishes procedures to better integrate societal needs in the process of research and innovation and its methodology is centered on the equal roles and responsibility of societal actors and innovators.

Furthermore, CSR is mostly concerned with ethical acceptability (or legal responsibilities of human rights instruments) and sustainability (e.g. reducing pollution), not with societal desirability. This is illustrated by the United Nations Global Compact, a strategic policy initiative for businesses that are committed to aligning their operations and strategies with ten universally accepted principles, which are concerning human rights, labour standards, the environment and anti-corruption.[20]

Creating Shared Value

The principle of Creating Shared Value (CSV) starts where the UN Global Compact stops, namely how businesses can pursue social goals as part of their licence to operate. As such there is an overlap with RRI and its focus on societal desirability. However, the goal of CSV is to improve the competitiveness and economic profit of a company by addressing societal issues, whereas RRI ensures that science and innovation are ethically acceptable, sustainable and focused on societal benefits for society as a whole.

Corporate Sustainability

The term Corporate sustainability (also “sustainability” and “sustainable development”) communicates a company’s ambition to align its actions with the major social, environmental and economic changes that face society at large–and to prepare itself for the society of the future. However, it is about business in general and not specifically about Research and Innovation, has unidirectional top-down character and is not associated with collective responsibility, and civil society's engagement.

Ethical, Legal and Social Aspects research (ELSA)

The acronym ELSA (in Europe) or ELSI (in the U.S.) refers to research activities that anticipate and address ethical, legal and social aspects (ELSA) or implications (ELSI) of emerging life sciences, such as genomics and nanotechnology (Hullman 2008) [21][22] [23] ELSI was conceived in 1988 when James Watson, at the press conference announcing his appointment as director of the Human Genome Project (HGP), suddenly and somewhat unexpectedly declared that the ethical and social implications of genomics warranted a special effort and should be directly funded by NIH.[24] Over the years, various ELSI / ELSA programs have been developed, in Canada, Europe (notably in the UK, the Netherlands and Norway) and the Far East. Compared to ELSA (focusing on interdisciplinary collaboration and interaction with societal stakeholders), RRI puts more emphasis on innovation and collaboration with industry.[25]

See also

References

  1. The Res-AGorA project consortium. "RRI Resources". Retrieved 23 June 2014.
  2. 1 2 European Commission (2013). "Options for Strengthening Responsible Research and Innovation - Report of the Expert Group on the State of Art in Europe on Responsible Research and Innovation" (PDF). doi:10.2777/46253. Retrieved 24 June 2014.
  3. The Directorate-General for Research and Innovation of the European Commission (2012). "Responsible research and innovation - Europe's ability to respond to societal challenges" (PDF). http://ec.europa.eu/research/science-society. Retrieved 9 June 2014. External link in |website= (help)
  4. 1 2 3 von Schomberg, René (2013). Owen, R; Heintz, M; Bessant, J, eds. "A vision of responsible innovation". Responsible Innovation. London: John Wiley.
  5. 1 2 Owen, R; Macnaghten, PM; Stilgoe, J (2012). "Responsible Research and Innovation: from Science in Society to Science for Society, with Society". Science and Public Policy. 39 (6): 751–760. doi:10.1093/scipol/scs093.
  6. Stilgoe, Jack; Owen, Richard; Macnaghten, Phil (2013). "Developing a framework for responsible innovation". Res. Policy. 42: 1568–1580. doi:10.1016/j.respol.2013.05.008.
  7. Stahl, Bernd Carsten (2013). "Responsible research and innovation: The role of privacy in an emerging framework". Science and Public Policy. 40 (6): 708–716. doi:10.1093/scipol/sct067.
  8. 1 2 Sutcliffe, Hilary (2011). "A Report on Responsible Research & Innovation" (PDF). London: MATTER Business Group. Retrieved 9 June 2014.
  9. Rodríguez, H; Fisher, E; Schuurbiers, D (2013). "Integrating science and society in European Framework Programmes: Trends in project-level solicitations". Research Policy. 42 (5): 1126–37. doi:10.1016/j.respol.2013.02.006.
  10. Robinson, DKR (2009). "Co-evolutionary scenarios: An application to prospecting futures of the responsible development of nanotechnology., 76(9), 1222-1239.". Technological Forecasting and Social Change. 76 (9): 1222–39. doi:10.1016/j.techfore.2009.07.015.
  11. 1 2 Mejlgaard, N; Bloch, C; Degn, L; Nielsen, MW; Ravn, T (2012). "Locating science in society across Europe: Clusters and consequences". Science and Public Policy. 39 (6): 741–750. doi:10.1093/scipol/scs092.
  12. Logar, N (2011). "Scholarly science policy models and real policy, RSD for SciSIP in US mission agencies". Policy Sciences. 44 (3): 249–266. doi:10.1007/s11077-011-9136-4.
  13. European Commission (9 December 2013). "Fact sheet: Science with and for Society in Horizon 2020" (PDF). Retrieved 6 July 2014.
  14. Lund Declaration (7–8 July 2009). "Conference: New Worlds – New Solutions. Research and Innovation as a Basis for Developing Europe in a Global Context" (PDF). Lund, Sweden. Retrieved 30 June 2014.
  15. Ozolina, Z; Mitcham, C; Schroeder, D; Mordini, E; McCarthy, P; Crowley, J (2012). "Ethical and Regulatory Challenges to Science and Research Policy at the Global Level - Expert Group report" (PDF). Luxembourg: Directorate General for Research and Innovation of the European Commission - Publication Office of the European Union. Retrieved 19 August 2014.
  16. European Union. "The founding principles of the Union". Retrieved 6 July 2014.
  17. United Nations. "The Ten Principles". Retrieved 6 July 2014.
  18. Grunwald, Armin (2011). "Responsible Innovation: Bringing together Technology Assessment, Applied Ethics, and STS research" (PDF). Enterprise and Work Innovation Studies. IET. 7: 9–31. Retrieved 20 August 2014.
  19. Anghel, LD; Grigore, GF; Roşca, M (2011). "Cause-Related Marketing - Part of Corporate Social Responsibility and its Influence upon Consumers' Attitude". Amfiteatru Economic. 29: 72–85.
  20. Cavallaro, Francesca Irene; Schroeder, Doris; Bing, Han (2014). "RRI ‐ Best Practice in Industry; Report for FP7 Project ProGReSS" (PDF).
  21. http://milne.ruc.dk/~booss/betasys/exocytosis/RExWorkshop2009/4-InternationalPrograms/4-1-FP7_Documents/4-1-2-PolicyDocuments/elsa_governance_nano.pdf
  22. Zwart H., Nelis A. (2009) What is ELSA genomics? Science and Society Series on convergence research. EMBO Reports 10 (6), 1-5
  23. Chadwick R and Zwart H (2013) Editorial: From ELSA to responsible research and Promisomics. Life Sciences, Society and Policy 2013, 9:3
  24. Cook-Deegan, R., 1994/1995. The gene wars: science, politics and the human genome. New York/London: Norton
  25. Zwart H., L. Landeweerd, A. van Rooij (2014). Adapt or perish? Assessing the recent shift in the European research funding arena from ‘ELSA’ to ‘RRI’. Life Sciences, Society and Policy. 10:11 (14 May 2014). doi:10.1186/s40504-014-0011-x

External links

European projects on RRI

Other resources

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