Longer-term developments shape the present and endogenous futures of institutions and practices of science and technology in society and their governance. Understanding the patterns allows diagnosis and soft intervention, often linked to scenario exercises. The book collects six articles offering key examples of this perspective, addressing ongoing issues in the governance of science and technology, including nanotechnology and responsible research and innovation. And adds two more articles that address background philosophical issues.
An anthology of writings by thinkers ranging from Freeman Dyson to Bruno Latour that focuses on the interconnections of technology, society, and values and how these may affect the future. Technological change does not happen in a vacuum; decisions about which technologies to develop, fund, market, and use engage ideas about values as well as calculations of costs and benefits. This anthology focuses on the interconnections of technology, society, and values. It offers writings by authorities as varied as Freeman Dyson, Laurence Lessig, Bruno Latour, and Judy Wajcman that will introduce readers to recent thinking about technology and provide them with conceptual tools, a theoretical framework, and knowledge to help understand how technology shapes society and how society shapes technology. It offers readers a new perspective on such current issues as globalization, the balance between security and privacy, environmental justice, and poverty in the developing world. The careful ordering of the selections and the editors' introductions give Technology and Society a coherence and flow that is unusual in anthologies. The book is suitable for use in undergraduate courses in STS and other disciplines. The selections begin with predictions of the future that range from forecasts of technological utopia to cautionary tales. These are followed by writings that explore the complexity of sociotechnical systems, presenting a picture of how technology and society work in step, shaping and being shaped by one another. Finally, the book goes back to considerations of the future, discussing twenty-first-century challenges that include nanotechnology, the role of citizens in technological decisions, and the technologies of human enhancement.
We are in an ever-changing and fast-paced world that is entrenched in technological innovation. But how is technology and science impacting our society? How does it affect our interactions with these products and ultimately with each other? How is society shaping the types of technologies we are advancing? Critical Issues Impacting Science, Technology, Society (STS), and Our Future compiles theory and research from the confluence of a variety of disciplines to discuss how scientific research and technological innovation is shaping society, politics, and culture, and predicts what can be expected in the future. While highlighting topics including political engagement, artificial intelligence, and wearable technology, this book is ideally designed for policymakers, government officials, business managers, computer engineers, IT specialists, scientists, and professionals and researchers in the science, technology, and humanities fields.
Imagining, forecasting and predicting the future is an inextricable and increasingly important part of the present. States, organizations and individuals almost continuously have to make decisions about future actions, financial investments or technological innovation, without much knowledge of what will exactly happen in the future. Science and technology play a crucial role in this collective attempt to make sense of the future. Technological developments such as nanotechnology, robotics or solar energy largely shape how we dream and think about the future, while economic forecasts, gene tests or climate change projections help us to make images of what may possibly occur in the future. This book provides one of the first interdisciplinary assessments of how scientific and technological imaginations matter in the formation of human, ecological and societal futures. Rooted in different disciplines such as sociology, philosophy, and science and technology studies, it explores how various actors such as scientists, companies or states imagine the future to be and act upon that imagination. Bringing together case studies from different regions around the globe, including the electrification of German car infrastructure, or genetically modified crops in India, Imagined Futures in Science, Technology and Society shows how science and technology create novel forms of imagination, thereby opening horizons toward alternative futures. By developing central aspects of the current debate on how scientific imagination and future-making interact, this timely volume provides a fresh look at the complex interrelationships between science, technology and society. This book will be of interest to postgraduate students interested in Science and Technology Studies, History and Philosophy of Science, Sociology, Cultural Studies, Anthropology, Political Sciences, Future Studies and Literary Sciences.
Provides a comprehensive introduction to the human, social and economic aspects of science and technology. It is broad, interdisciplinary and international, with a focus on Australia. The authors present complex issues in an accessible and engaging form. Invaluable for both students and teachers.
This thoughtful and engaging text challenges the widely held notion of science as somehow outside of society, and the idea that technology proceeds automatically down a singular and inevitable path. Through specific case studies involving contemporary debates, this book shows that science and technology are fundamentally part of society and are shaped by it. Draws on concepts from political sociology, organizational analysis, and contemporary social theory. Avoids dense theoretical debate. Includes case studies and concluding chapter summaries for students and scholars.
The exploration of ways to conceptualize the shaping of the present by socio‐technical futures is the aim of this volume. Therefore it brings together contributions from Science and Technology Studies and Technology Assessment, which focus all on the question how socio-technical images of the future shape present processes of innovation and transformation starting from empirical case studies and generalizing specific findings or by tackling conceptual questions from the outset. A white paper of 23 authors, which aims to sensitize researchers and practitioners completes the volume.
“Deftly shows how a seemingly frivolous film genre can guide us in shaping tomorrow’s world.” —Seth Shostak, senior astronomer, SETI Institute Artificial intelligence, gene manipulation, cloning, and interplanetary travel are all ideas that seemed like fairy tales but a few years ago. And now their possibilities are very much here. But are we ready to handle these advances? This book, by a physicist and expert on responsible technology development, reveals how science fiction movies can help us think about and prepare for the social consequences of technologies we don’t yet have, but that are coming faster than we imagine. Films from the Future looks at twelve movies that take us on a journey through the worlds of biological and genetic manipulation, human enhancement, cyber technologies, and nanotechnology. Readers will gain a broader understanding of the complex relationship between science and society. The movies mix old and new, and the familiar and unfamiliar, to provide a unique, entertaining, and ultimately transformative take on the power of emerging technologies, and the responsibilities they come with.
In June 2006, seventeen scientists and educators selected by the National Academies, the Academy of Sciences of Iran, and the Académie des Sciences of France held a workshop at the estate of the Fondation des Treilles in Toutour, France, to discuss issues concerning the role of science in the development of modern societies. Science and Technology and the Future Development of Societies includes the presentations made at the workshop and summarizes the discussions that followed the presentations. Topics of the workshop included science and society issues, the role of science and engineering in development; obstacles and opportunities in the application of science and technology to development; scientific thinking of decision makers; management and utilization of scientific knowledge; and science, society, and education. This book also provides useful background for the further development of interactions of Western scientists and educators with Iranian specialists.
Why the United States lags behind other industrialized countries in sharing the benefits of innovation with workers and how we can remedy the problem. The United States has too many low-quality, low-wage jobs. Every country has its share, but those in the United States are especially poorly paid and often without benefits. Meanwhile, overall productivity increases steadily and new technology has transformed large parts of the economy, enhancing the skills and paychecks of higher paid knowledge workers. What’s wrong with this picture? Why have so many workers benefited so little from decades of growth? The Work of the Future shows that technology is neither the problem nor the solution. We can build better jobs if we create institutions that leverage technological innovation and also support workers though long cycles of technological transformation. Building on findings from the multiyear MIT Task Force on the Work of the Future, the book argues that we must foster institutional innovations that complement technological change. Skills programs that emphasize work-based and hybrid learning (in person and online), for example, empower workers to become and remain productive in a continuously evolving workplace. Industries fueled by new technology that augments workers can supply good jobs, and federal investment in R&D can help make these industries worker-friendly. We must act to ensure that the labor market of the future offers benefits, opportunity, and a measure of economic security to all.