Stefaan Verhulst

Article by Rebecca Winthrop: “…Brainstorming is the work that’s fundamental to writing. As a researcher studying A.I.’s effects on education, I have concluded that these tools only superficially improve writing. The bigger and more alarming impact they have is to constrict our full range of thoughts and our ability to generate original and useful ideas — what we call creative thinking. This seems to be especially true for students. A.I.’s smooth sentences, elegant transitions and rich vocabulary give the illusion of expansive creativity and individuality. But the underlying ideas often converge into a few homogenized categories.

The erosion of creative thinking means young people will struggle to navigate uncertainty. Workers will strain to adapt to a shifting labor market. And society will miss out on the new ideas that can solve complex problems and enhance lives.

For the past eight years, the Georgetown University neuroscientist Adam Green has been leading a national research team tracking the range of novel ideas that college-bound high school students present in their application essays, before and after the introduction of ChatGPT. In one study, he and his team examined personal statements from more than 370,000 students, and found that after ChatGPT became available, their essays suddenly used diverse and colorful language, but lacked truly creative ideas. And the linguistic coverup worked; post-ChatGPT essays were rated as more “creative” by human judges, even if the substance of the essays trod familiar territory…(More)”.

Article by Jennifer Gibson and Kaitlin Thaney: “The global research enterprise relies on information infrastructure to power scientific discovery, medical breakthroughs, and evidence-based policymaking. But the data repositories, digital asset management services, and preservation systems that ensure research data remains open and accessible are often overlooked—until they disappear. Many of these tools and services are vulnerable to policy changes and funding cuts. Over the last 25 years, nearly 200 research data repositories have shut down permanently; more than half of those closures have happened since 2018.

Each closure represents lost knowledge and leads to broken links, bad citations, and a general inability to utilize and verify scientific findings. For example, without funding from the National Oceanic and Atmospheric Administration, the Alaska Earthquake Center has ceased providing real-time seismic data to inform tsunami warnings for the whole US West Coast. On topics as disparate as Gulf War illness or natural selection, when a repository goes dark, it can affect individuals or even entire research disciplines.

The data repositories, digital asset management services, and preservation systems that ensure research data remains open and accessible are often overlooked—until they disappear.

And because repositories and other open science infrastructures are commonly designed to support transboundary research, their collapse can have compounding global effects. In early 2025, the United States Agency for International Development (USAID) suspended access to the Demographic and Health Surveys (DHS) Program databases, a repository containing decades of population, health, HIV, and nutrition data from more than 90 countries. Almost overnight, researchers in Malawi lost access to critical data informing antiretroviral therapy programs serving roughly one million HIV-positive patients; researchers in Nigeria had nowhere to store new data designed to identify causes of maternal deaths; and the release of complete data from a 2023–2024 key indicators survey in the Democratic Republic of the Congo was delayed for months. After USAID was dismantled in the first half of 2025, an emergency grant from the Gates Foundation restored access to existing DHS data and selected surveys. But this three-year support has not returned the program to its prior scale, leaving 23 countries with surveys still incomplete or unanalyzed…(More)”.

This study by CanTrust Hosting Co-operative and Hypha Worker Co-operative: “…examines whether a genuinely co-operative alternative is feasible: one that preserves data sovereignty, democratic governance, and environmental integrity without asking organisations to accept inferior tools or prohibitive costs. Our report covers:

• Market analysis,
• Technical feasibility (including original research on energy consumption),
• Risk assessment,
• And financial viability.

What we found was that such an alternative is both technically achievable, and clearly needed…(More)”.

Book by Sarah O’Connor: “A tsunami of change, we are told, is sweeping the economy as robots and AI threaten to take over tasks done by humans. But while we worry that we’re robotizing our work, what if the real risk is that we’re robotizing ourselves?

When prize-winning Financial Times journalist Sarah O’Connor set out to investigate what was happening on the front lines of technological change, she found people who weren’t losing their jobs to machines, but who felt they were losing something else instead. From translators forced to edit AI output to university graduates interviewed by software and warehouse workers surrounded by robots, she heard stories of work becoming lonelier, less creative, less human.

But O’Connor also found hopeful stories of jobs being made better, safer and more enjoyable – where workers haven’t rejected the new tools, but instead have learned to control them. Exploring questions of power, design, institutions and ideas, her reporting shows that the way technology changes the world of work is not pre-determined, but must be contested and shaped by all of us.

Inspired by stories from nineteenth-century English cotton mills to twenty-first century Swedish mines, We Are Not Machines reveals how we can fight for work which is more respectful of our limits, and more worthy of our minds…(More)”.

Article by Sarah O’Connor: “Arguments about the past are often used as proxies for arguments about the future. It is no surprise, then, that a long-running debate about the Industrial Revolution has flared up as we begin another phase of rapid technological change.

The argument concerns whether the industrial revolution was good or bad for workers in the short run (and, by extension, which the AI revolution will be). The discourse in tech circles can be boiled down to this: “Relax: the industrial revolution led to higher real wages and more jobs”. “But don’t you know about ‘Engels’ pause’? Between 1790 and 1840, profits rose but real wages barely budged.” “Ah, but don’t you know that a different measure of real wages tells a different story?” And so on.

I find this argument perplexing — not because there are no lessons to be learnt from the industrial revolution, but because I don’t think these databases are the right place to look for them.

For one thing, the data on that era is patchy and unreliable. For another, the industrial revolution in Britain took place against a very different institutional backdrop. There was no universal suffrage, no legal trade unions and no modern welfare state. Indeed, you could argue these were eventual social responses to the industrial revolution. It is hard to see why we should expect the wage-setting dynamics of the past (even if we could agree on what they actually were) to repeat themselves today.

But most importantly, these quantitative metrics do not capture how profoundly the industrial revolution changed the nature of work for many people, in ways both good and bad. As the historian EP Thompson puts it in The Making of the English Working Class, “some of the most bitter conflicts of these years turned on issues which are not encompassed by cost-of-living series”: health, working hours, child labour, security and independence…(More)”.

Paper by Sara Thabit, Till Degkwitz, Mahardika Fadmastuti and Luca Mora: “Technology decentralisation is increasingly proposed as a key feature to build more trustworthy, accessible, and innovative digital public infrastructure, yet there is limited empirical knowledge of the actual benefits that such decentralised approaches would create from a public sector perspective. Furthermore, existing literature often relies on a linear dichotomy between data supply and demand that fails to capture the complexity of decentralised data ecosystems. This paper addresses these gaps by adopting an assemblage thinking perspective to conceptualise data platforms as complex socio-technical arrangements, and by developing a public values framework to broaden the understanding of the various outcome that data platforms can create. We apply this approach to an exploratory case study of Hamburg’s Urban Data Platform (UDP). Our findings demonstrate that public value creation is not determined by technical decentralisation alone but by specific architecture-governance configurations. We illustrate that both decentral and central practices can co-occur within the same system, where the role of a leading orchestrator is crucial to drive public value creation…(More)”.

Article by Kinling Lo: “For decades, the pilgrimage route for ambitious tech founders, investors, and engineers led to Silicon Valley. Now, a growing number of them are flying to Shanghai, Hangzhou, or Shenzhen instead. China is seeing a surge in a new kind of tech tourism where visitors pay up to $9,000 for curated tours of electric-vehicle factories, robotaxis, and artificial intelligence and robotics companies. The trend is partially triggered by viral videos of China’s dancing humanoid robots and flying cars, creating a sense that the country may be moving faster than the West in key emerging technologies. As China-U.S. tech competition intensifies, these trips are also becoming a means to explore the next investment opportunity and tech breakthrough.

“There’s a fear-of-missing-out dynamic at play: the sense that China’s tech ecosystem has reached a level of sophistication where not seeing it firsthand puts you at an informational disadvantage relative to competitors who have,” Shaoyu Yuan, an international relations adjunct professor at New York University who specializes in China’s soft power, told Rest of World…(More)”.

Paper by Lorenzo Gabrielli, Patrizia Sulis, Sara Thabit and Marco Minghini: “Open, non-governmental building datasets have become increasingly important for urban analysis, exposure modelling, and policy support. Despite their growing use, little is known about the consistency, completeness, and comparability of the semantic information they provide at a continental scale. This study presents the first systematic comparison of the semantic attributes of six major pan-European open building datasets—OpenStreetMap, EUBUCCO, Microsoft Global ML Building Footprints, Overture Maps, GHS-OBAT, and the Digital Building Stock Model (DBSM)—using the 27 EU Member States as a common reference area. Five key semantic attributes (height, typology, building age, number of floors, and building material) were harmonised and analysed in terms of completeness and value distributions across countries and degrees of urbanisation. The workflow combines API-based data ingestion, distributed geospatial processing, and high-performance computing to handle around 1.250 billion building footprints. Results reveal pronounced heterogeneity in semantic content across datasets. Remote-sensing-derived products (GHS-OBAT and DBSM) exhibit the highest levels of attribute completeness for height, typology, and building age, but rely on aggregated or coarse semantic representations. In contrast, community-driven and conflated datasets (OpenStreetMap and Overture Maps) provide richer and more detailed semantic schemas, albeit with low and spatially uneven completeness. Completeness patterns vary substantially across countries and urbanisation classes, and high completeness values often mask limited semantic informativeness due to the prevalence of unknown or aggregated attribute values. Overall, the findings demonstrate that no single dataset is universally optimal regarding consistency and completeness of building footprints’ semantic attributes. Nonetheless, the paper provides practical guidance for selecting suitable data sources depending on spatial scale, attribute requirements, and analytical objectives…(More)”.

Article by Stefaan Verhulst and Begoña G. Otero: “The European Commission’s Technological Sovereignty Package (IP/26/1187) marks an important moment in the global political economy of the digital age. Presented by Commission President Ursula von der Leyen as an existential imperative for protecting critical infrastructure, the initiative signals an increasingly assertive European response to a rapidly changing geopolitical landscape. Through proposed initiatives such as the Chips Act 2.0, the Cloud and AI Development Act, the Open Source Strategy, and the Strategic Roadmap for Digitalisation and AI in Energy, Brussels has made clear that digital infrastructure is no longer viewed merely as an engine of economic growth but as a strategic asset central to security, competitiveness, and geopolitical influence.

Together, these measures seek to strengthen Europe’s position across the full digital value chain: expanding domestic semiconductor production and advanced chip design capabilities; tripling Europe’s data center capacity over the coming five to seven years; accelerating the deployment of cloud and AI infrastructure; scaling the adoption of artificial intelligence through a network of Experience and Acceleration Centres (AI Factories); promoting open-source alternatives in cloud, AI, cybersecurity, internet technologies, and semiconductors; and integrating digital infrastructure more directly into Europe’s energy system.

Yet technological sovereignty should not be understood as an end in itself. The ultimate objective cannot simply be to manufacture more chips, build more data centers, or host more AI models within European borders. Rather, it should be to ensure that individuals, communities, businesses, and public institutions have meaningful agency over the digital systems that increasingly shape economic opportunity, democratic participation, cultural expression, and public life. Viewed through this lens, the debate around technological sovereignty is fundamentally a debate about digital self-determination: who has the ability to shape the digital systems upon which society depends, under what conditions, and for whose benefit. What follows, then, is that tackling asymmetry by creating new asymmetries is not a desirable outcome. A sovereignty that simply transfers concentrated power from foreign to domestic hands, or that substitutes one set of gatekeepers for another, would resolve the geopolitical problem while reproducing the democratic one. How an infrastructure distributes powers is not fixed by the technology itself but by the institutions and rules built around it: concentration is a choice, not an inevitability. What matters then is not who holds power over digital systems but whether that power is distributed, accountable, and open to challenge.

The Triad of Tech Sovereignty

As the global debate over technological sovereignty intensifies, this quest is increasingly unfolding across three interconnected dimensions (what we call the “Triad of Tech Sovereignty”):

• the weaponization of structural dependency, where reliance on foreign infrastructure becomes vulnerability;
• the weaponization of digital openness, where access and interoperability become mechanisms for extraction; and
• systemic asymmetries of agency, where those most affected by decisions and technical systems often have the least say.

While Europe’s latest initiatives offer substantial responses to the first dimension and growing attention to the second, the third is noticeably misaligned. By prioritizing the hard infrastructure of sovereignty over the democratic imperative of self-determination, Europe risks building an impressive industrial fortress without securing the social foundations required to sustain it…(More)”.

Paper by Marcia Langton, Robert McLellan, Jennifer Fewster, and Kristen Smith: “The Framework for the Governance of Indigenous Data has been developed to guide ethical, inclusive, and culturally grounded data practices across the Humanities, Arts, Social Sciences, and Indigenous Research Data Commons (HASS and Indigenous RDC).
It responds to long-standing calls from Aboriginal and Torres Strait Islander communities for greater control over data that affects their lives, lands, cultures, and futures. The Framework is the result of extensive consultation, co-design, and collaboration with Indigenous data custodians, researchers, institutions, and policymakers. It is intended to be adopted across all HASS and Indigenous RDC activities.
This Framework affirms that Indigenous data governance is essential to Indigenous self-determination. It defines Indigenous data as information generated by, about, or for Aboriginal and Torres Strait Islander peoples, encompassing cultural, ecological, linguistic, genealogical, and community-generated knowledge. The Framework recognises that all data – whether held by governments, institutions, or communities – has implications for Indigenous peoples and must be governed in ways that respect Indigenous rights, laws, and relational worldviews.

The Framework is structured around three interrelated components: a Governance Model, a set of Governance Guidelines, and a Monitoring and Accountability structure. The Governance Model identifies 5 foundational elements:

1. Recognition of Indigenous assets
2. Partnership
3. Building capabilities
4. Self-determination
5. Inclusive data ecosystem.

These elements underpin the Framework’s guidelines and practices, which provide actionable strategies for institutions and communities to embed Indigenous governance across the data lifecycle.

The Framework is grounded in the CARE Principles for Indigenous Data Governance (Collective Benefit, Authority to Control, Responsibility, and Ethics) and complements the FAIR Principles (Findable, Accessible, Interoperable, and Reusable)…(More)”.