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For technology to be our salvation, earlier non-scientific input is needed

<ÁñÁ«ÊÓƵ class="standfirst">We need to find mechanisms to plug in relevant humanities and social sciences from the very beginning of projects, says Christina Boswell
March 13, 2023
A circuit map reading "threat detected"
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Tony Blair and William Hague persuasively argued in their report??last month that we needed to put science and technology at the heart of our mission to shape a more sustainable, healthy and prosperous world. But the former UK prime minister and leader of the opposition were also wise to note that, as history shows, technological innovation can unleash as many problems as it solves.

The challenges we are urgently addressing were to some degree caused by technological change. Industrialisation underlies climate change, declines in biodiversity and the increased threat of pandemics. The rise of the internet has worsened inequalities. Nuclear technology comes with profound safety concerns.

The crucial lesson of this is that we need to factor in wider societal impacts, risks and opportunities as a fundamental part of how we design and deliver technological innovation. Too often, social sciences, humanities and the arts are an afterthought. Sociologists, lawyers, designers or ethicists are brought in to facilitate the successful roll-out of a new treatment, service or product, but once it has been designed. Instead, we need to bake in insights and approaches from across these disciplines from the very start, shaping how we frame our research goals, questions and methods.

A number of bodies ¨C notably the British Academy, which first coined the acronym Shape to champion the role of ¡°Social Sciences, Humanities and Arts for People and the Economy¡± ¨C are actively plugging this agenda. And funders are starting to buy in, increasingly framing challenge-oriented research as requiring interdisciplinary approaches. But often the ask is vague, and review panels are not sufficiently academically diverse to redeem these bolder aspirations.

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Indeed, at the University of Edinburgh we have found that industry partners have often been more foresighted in funding disruptive innovation. The financial services company Legal?& General financed our Advanced Care Research Centre, bringing together roboticists, clinicians and social scientists to rethink later-life care. And the investment management company Baillie Gifford supported our Centre for Technomoral Futures, which integrates informatics and ethics to explore issues such as moral responsibility in autonomous systems.

So one part of the solution is a more comprehensive rethink of how we frame and review research investments. In the UK, the government could play a key role in this through the new Department for Science, Innovation?& Technology (DSIT), particularly in the context of the new ?(Aria), which aims to fund high-risk, high-reward innovation.

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Higher education institutions also have a clear role to play. Most research-intensive universities have created centres and networks that bring together diverse disciplinary approaches. Yet, in many cases, researchers end up working side-by-side rather than together, without fundamentally rethinking their questions or approaches. Genuinely interdisciplinary working can be hard work, uncomfortable and risky, so we need to ensure that all parts of the research environment ¨C organisational structures, reward systems, funding and peer review ¨C pull in the same direction.

Even when this happens, we have found that a key part of the problem is that Stem?researchers often lack the experience to scope relevant Shape inputs, understand what kinds of approaches might work best or identify the right collaborators for a new piece of research.

Our answer to this has been to develop a . Our simple online resource for researchers does two things. First, it maps the dimensions of tech innovation that would benefit from?Shape input ¨C from security, risks and harm through to inequalities and user perspectives, economic impacts, ethics and regulatory settings.

Second, it identifies key research groupings that can deliver this expertise in our focus areas of sustainability, health and data. It effectively acts as a match-making service for interdisciplinary research collaboration.

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For example, an engineer developing new clean-energy technologies for homes could use the tool to explore a range of potential considerations, including the economic impact of new devices, potential risks and harms, implications for equality and inclusion, the regulatory context, the role of place and local context, public attitudes and controversies around the technology, the importance of user-friendly design, and lessons learned from the historical introduction of such innovations.

Although?it?might not be feasible to factor in all of these dimensions, researchers might focus on one or two, and then use the tool to contact relevant researchers. And this could inform how they frame research questions, design the research, identify collaborators and think about governance of the project.

Our tool is just one element of the wider ecosystem that needs to change. Research organisations, government, funders, industry partners, disciplinary studies associations and journals all need to play their parts. But by helping?Stem and?Shape colleagues to make these connections, we hope to normalise the integration of?Shape perspectives into challenge-oriented research, from inception to application.

If we do this, we can ensure that carbon-reduction technologies are adopted by the public, that artificial intelligence does not entrench existing inequalities, and that our healthcare system can keep pace with the implications of genome sequencing.

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Only in this way can we exploit the full potential of technological innovation for the benefit of people and planet.

Christina Boswell is vice-principal of research and enterprise at the University of Edinburgh and vice- president of the British Academy.

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