John V. Pavlik argues that a new form of media has emerged: experiential news, which delivers not just news stories but also news experiences, in which the consumer engages as a participant or ...virtual eyewitness in immersive, multisensory, and interactive narratives.
The future of banking is already here are you ready? Bank 4.0 explores the radical transformation already taking place in banking, and follows it to its logical conclusion. What will banking look ...like in 30 years? 50 years? The world s best banks have been forced to adapt to changing consumer behaviors; regulators are rethinking friction, licensing and regulation; Fintech start-ups and tech giants are redefining how banking fits in the daily life of consumers. To survive, banks are having to develop new capabilities, new jobs and new skills. The future of banking is not just about new thinking around value stores, payment and credit utility it s embedded in voice-based smart assistants like Alexa and Siri and soon smart glasses which will guide you on daily spending and money decisions. The coming Bank 4.0 era is one where either your bank is embedded in your world via tech, or it no longer exists. In this final volume in Brett King s BANK series, we explore the future of banks amidst the evolution of technology and discover a revolution already at work. From re-engineered banking systems, to selfie-pay and self-driving cars, Bank 4.0 proves that we re not on Wall Street anymore. Bank 4.0 will help you: Understand the historical precedents that flag a fundamental rethinking in banking Discover low-friction, technology experiences that undermine the products we sell today Think through the evolution of identity, value and assets as cash and cards become obsolete Learn how Fintech and tech disruptors are using behaviour, psychology and technology to reshape the economics of banking Examine the ways in which blockchain, A.I., augmented reality and other leading-edge tech are the real building blocks of the future of banking systems If you look at individual technologies or startups disrupting the space, you might miss the biggest signposts to the future and you might also miss that most of we ve learned about banking the last 700 years just isn t useful. When the biggest bank in the world isn t any of the names you d expect, when branch networks are a burden not an asset, and when advice is the domain of Artificial Intelligence, we may very well have to start from scratch. Bank 4.0 takes you to a world where banking will be instant, smart and ubiquitous, and where you ll have to adapt faster than ever before just to survive. Welcome to the future.
As the fields of social movement studies (SMS) and science and technology studies (STS) have diversified in topical focus, they have moved closer to each other. SMS has turned toward the study of ...nonstate targets and institutionalized repertoires of action, just as STS has turned to expertise and publics. In Undone Science, David Hess argues that a theoretical integration of core concepts in the two fields is now possible, and he presents just such a synthesis. Hess focuses on industrial transition movements—mobilized counterpublics of activists, advocates, entrepreneurs, and other agents of change—and examines several areas of common ground between the two fields relevant to these movements. His account reveals the problem of “undone science”—areas of research potentially valuable to the goals of industrial transition movements that have been systematically ignored.
Each chapter begins with a problem in SMS, discusses the relevant STS literature, describes new concepts and findings that have emerged, and offers applications to examples that range from nanotechnology and climate science denialism to conflicts based on race, class, and gender. Topics include the epistemic dimension of the political opportunity structure, networks of counterpublic knowledge, and regime resistance in industrial transition.
Innovation: Powering Future Industries is the 2023 National Science Week schools' theme, in which we explore how technological developments impact the world around us, and their role in shaping our ...future.
Defining Web3 DuPont, Quinn; Kavanagh, Donncha; Dylan-Ennis, Paul
2024
eBook
Bringing together researchers, artists, and organisational designers to explore Web3's potential as a progressive platform for creative social coordination, this uniquely experimental volume presents ...the state of the art in socio-cultural and economic research into cryptocurrencies and blockchains.
We face constant choices about how we read. Educators must select classroom materials. College students weigh their textbook options. Parents make decisions for their children. The digital revolution ...has transformed reading, and with the recent turn to remote learning, onscreen reading may seem like the only viable option. Yet selecting digital is often based on cost or convenience, not on educational evidence. Now more than ever it is imperative to understand how reading medium actually impacts learning--and what strategies we need in order to read effectively in all formats. In "How We Read Now," Naomi Baron draws on a wealth of knowledge and research to explain important differences in the way we concentrate, understand, and remember across multiple formats. Mobilizing work from international scholarship along with findings from her own studies of reading practices, Baron addresses key challenges--from student complaints that print is boring to the hazards of digital reading for critical thinking. Rather than arguing for one format over another, she explains how we read and learn in different settings, shedding new light on the current state of reading. The book then crucially connects research insights to concrete applications, offering practical approaches for maximizing learning with print, digital text, audio, and video. Since screens and audio are now entrenched--and invaluable-platforms for reading, we need to rethink ways of helping readers at all stages use them more wisely. "How We Read Now" shows us how to do that. Foreword written by Maryanne Wolf.
The relationship between natural resources and the ecological footprint has critical environmental implications. However, as critical as it is, this domain is insufficiently examined by researchers, ...and shows ambiguous results. Moreover, these studies do not address the role of technological innovation in shaping the ecological footprint, in an open and explicit manner. Therefore, realizing the need for a more critical evaluation of the intricacies involved in studying the ecological footprint, this study analyzes the linkages between natural resources, technological innovations, economic growth, and the resulting ecological footprint in emerging economies. Drawing on the data from 1984 to 2016, we employed the second-generation panel cointegration methodologies to study the findings of this research. Results of Pesaran's CD test and P&Y's slope homogeneity test confirm the existence of a slope heterogeneity across countries, and correlation amongst cross-sectional units. Moreover, Cointegration results confirm a stable, long-run relationship between the ecological footprint, natural resources, technological innovations, and economic growth. In the long run, natural resources and economic growth increase and expand the ecological footprint, while technological innovations are helpful in abating environmental degradation that takes place a result of this phenomenon. Furthermore, the quadric term for economic growth showed a negative impact on the ecological footprint, i.e., in the presence of the Environment Kuznets Curve (EKC) hypothesis. Additionally, the results from CS-ARDL were reconfirmed by utilizing the Augmented Mean Group (AMG) method. Also, the result of the Dumitrescu-Hurlin Granger causality test shows that any policy to target natural resources, technological innovations, and economic growth significantly alters the ecological footprint and vice versa. Our key findings lead towards the manifestation and emphasis of the importance of appropriate policies for restoring natural resources and at the same time, upgrading technological innovations in order to attain sustainable development goals.
•We investigated the impact of natural resources, technological innovations, and economic growth on the ecological footprint.•Advanced panel data estimation techniques are employed.•Natural resources and economic growth increase the ecological footprint.•Technological innovations reduce environmental degradation.•The EKC is validated in emerging economies.
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