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The embedding of any new technologies in society is challenging. The evolving state of the scientific art, often-unquantifiable risks and ill-defined developmental trajectories have the potential to hinder innovation and/or the commercial success of a technology. The are, however, a number of tools that can now be utilized by stakeholders to bridge the chasm that exists between the science and innovation dimensions on the one hand, and the societal dimensions on the other. This edited volume will draw together leading researchers from the domains of law, philosophy, political science, public administration and the natural sciences in order to demonstrate how tools such as, for example, constructive technology assessment, regulatory governance and societal scenarios, may be employed by stakeholders to assist in successfully embedding new technologies into society. This volume will focus primarily on the embedding of two emergent and emerging technologies: nanotechnologies and synthetic biology. Government, industry and the epistemic community continue to struggle with how best to balance the promised benefits of an emerging technology with concerns about its potential impacts. There is a growing body of literature that has examined these challenges from various cultural, scientific and jurisdictional dimensions. There is, however, much work that still needs to be done; this includes articulating the successes and failures of attempts to the societal embedding of technologies and their associated products. This edited volume is significant and timely, as unlike other books currently on the market, it shall draw from real work experiences and experiments designed anticipate the societal embedding of emerging technologies. This empirical work shall be supported by robust theoretical underpinnings.
A growing problem of interest in the field of science and technology policy is that the next generation of innovations is arriving at an accelerating rate, and the governance system is struggling to catch up. Current approaches and institutions for effective technology assessment are ill suited and poorly designed to proactively address the multidimensional, interconnected societal impacts of science and technology advancements that are already taking place and expected to continue over the course of the 21st century. This book offers tangible insights into the strategies deployed by well-known, high-profile organizations involved in anticipating the various societal and policy implications of nanotechnology and synthetic biology. It focuses predominantly on an examination of the practices adopted by the often-cited and uniquely positioned Project on Emerging Nanotechnologies in the United States, as well as being informed by comparisons with a range of institutions also interested in embedding forward-looking perspectives in their respective area of innovation. The book lays out one of the first actionable roadmaps that other interested stakeholders can follow when working toward institutionalizing anticipatory governance practices throughout the policymaking process.
This book analyzes the possibilities for effective global governance of science in Europe, India and China. Authors from the three regions join forces to explore how ethical concerns over new technologies can be incorporated into global science and technology policies. The first chapter introduces the topic, offering a global perspective on embedding ethics in science and technology policy. Chapter Two compares the institutionalization of ethical debates in science, technology and innovation policy in three important regions: Europe, India and China. The third chapter explores public perceptions of science and technology in these same three regions. Chapter Four discusses public engagement in the governance of science and technology, and Chapter Five reviews science and technology governance and European values. The sixth chapter describes and analyzes values demonstrated in the constitution of the People’s Republic of China. Chapter Seven describes emerging evidence from India on the uses of science and technology for socio-economic development, and the quest for inclusive growth. In Chapter Eight, the authors propose a comparative framework for studying global ethics in science and technology. The following three chapters offer case studies and analysis of three emerging industries in India, China and Europe: new food technologies, nanotechnology and synthetic biology. Chapter 12 gathers all these threads for a comprehensive discussion on incorporating ethics into science and technology policy. The analysis is undertaken against the backdrop of different value systems and varying levels of public perception of risks and benefits. The book introduces a common analytical framework for the comparative discussion of ethics at the international level. The authors offer policy recommendations for effective collaboration among the three regions, to promote responsible governance in science and technology and a common analytical perspective in ethics.
An examination of how the mobile phone has become part of the fabric of society—as did such earlier technologies as the clock and the car. Why do we feel insulted or exasperated when our friends and family don't answer their mobile phones? If the Internet has allowed us to broaden our social world into a virtual friend-net, the mobile phone is an instrument of a more intimate social sphere. The mobile phone provides a taken-for-granted link to the people to whom we are closest; when we are without it, social and domestic disarray may result. In just a few years, the mobile phone has become central to the functioning of society. In this book, Rich Ling explores the process by which the mobile phone has become embedded in society, comparing it to earlier technologies that changed the character of our social interaction and, along the way, became taken for granted. Ling, drawing on research, interviews, and quantitative material, shows how the mobile phone (and the clock and the automobile before it) can be regarded as a social mediation technology, with a critical mass of users, a supporting ideology, changes in the social ecology, and a web of mutual expectations regarding use. By examining the similarities and synergies among these three technologies, Ling sheds a more general light on how technical systems become embedded in society and how they support social interaction within the closest sphere of friends and family.
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.
Foresight for Organizations will acquaint the reader with various foresight methods and tools, to show the reader how these methods are used, what the pitfalls are and how the methods relate to each other. This innovative volume offers the reader the ability to carry out a study of the future by him- or herself and apply the results in a decision-making strategy process. The author addresses the following methods: scenarios, trend analysis, the Delphi method, quantitative trend extrapolation, technology assessment, backcasting and roadmapping; the most relevant and popular methods that also cover the range of approaches from predictive, via normative to explorative. Every chapter also contains references to additional literature about the methods being discussed. This book is essential reading for researchers, academics and students in the areas of Community Development, Sociology of organizations, Change management, Social entrepreneurship, Sustainable development and participative planning.
This book is concerned with the associated issues between the differing paradigms of academic and organizational computing infrastructures. Driven by the increasing impact Information Communication Technology (ICT) has on our working and social lives, researchers within the Computer Supported Cooperative Work (CSCW) field try and find ways to situate new hardware and software in rapidly changing socio-digital ecologies. Adopting a design-orientated research perspective, researchers from the European Society for Socially Embedded Technologies (EUSSET) elaborate on the challenges and opportunities we face through the increasing permeation of society by ICT from commercial, academic, design and organizational perspectives. Designing Socially Embedded Technologies in the Real-World is directed at researchers, industry practitioners and will be of great interest to any other societal actors who are involved with the design of IT systems.
Recoge: 1. Research ethics: European and Asian perspectives, global challenges - 2. Embedding society in European science and technology policy advice - 3. Science policy advisory in China: structures and social perspectives - 4. Dealing with nanoparticles: a comparison between Chinese and European approaches to nanotechnology - Concludind remarks: towards a common approach to science and technology issues.
Similarly, leadership can be seen as an obstacle to sustainable development if leaders form close circles and are not willing to share experiences with other actors; but leadership could also be considered as an important element to keep concepts and practices forward. The book holds this double perspective: explaining, mapping and analyzing different goals/formats/methods of more and less collaborative approaches, but at the same time taking a critical approach to the theme by understanding related risks, effects, prospects and corrective actions.
Hugo de Man Professor Katholieke Universiteit Leuven Senior Research Fellow IMEC The steady evolution of hardware, software and communications technology is rapidly transforming the PC- and dot.com world into the world of Ambient Intelligence (AmI). This next wave of information technology is fundam- tally different in that it makes distributed wired and wireless computing and communication disappear to the background and puts users to the foreground. AmI adapts to people instead of the other way around. It will augment our consciousness, monitor our health and security, guide us through traffic etc. In short, its ultimate goal is to improve the quality of our life by a quiet, reliable and secure interaction with our social and material environment. What makes AmI engineering so fascinating is that its design starts from studying person to world interactions that need to be implemented as an int- ligent and autonomous interplay of virtually all necessary networked electronic intelligence on the globe. This is a new and exciting dimension for most elect- cal and software engineers and may attract more creative talent to engineering than pure technology does. Development of the leading technology for AmI will only succeed if the engineering research community is prepared to join forces in order to make Mark Weiser’s dream of 1991 come true. This will not be business as usual by just doubling transistor count or clock speed in a microprocessor or increasing the bandwidth of communication.