Intro -- Preface -- Contents -- About the Author -- 1 Introduction: Sustainable Urbanism and the Potential of its Synergic Integration with Data-Driven Smart Urbanism -- 1.1 Research Topic: A Broad Perspective -- 1.2 Background -- 1.3 The Aim and Purpose of the Book -- 1.4 The Structure and Content of the Book -- 1.5 The Organization and Design of the Book -- References -- 2 The Compact City Paradigm and its Centrality in Sustainable Urbanism in the Era of Big Data Revolution: A Comprehensive State-of-the-Art Literature Review -- 2.1 Introduction -- 2.2 Literature Review Methodology: A Topical Approach -- 2.2.1 Hierarchical Search Strategy and Scholarly Sources -- 2.2.2 Selection Criteria: Inclusion and Exclusion -- 2.2.3 Combining Three Organizational Approaches -- 2.2.4 Purpose -- 2.3 Conceptual, Theoretical, and Discursive Foundations -- 2.3.1 The Built Environment -- 2.3.2 Sustainable Urban Planning, Design, and Development -- 2.3.3 Sustainable Cities -- 2.3.4 Sustainable Urban Forms -- 2.3.5 Smart Sustainable Urbanism: A Data-Driven Approach -- 2.4 A Thorough Analysis, Evaluation, and Discussion of the Compact City Paradigm of Sustainable Urbanism -- 2.4.1 The Compact City Model -- 2.4.1.1 Genesis and Dimensions -- 2.4.1.2 Core Compact City Principles and Strategies -- Compactness -- 2.4.1.3 Density -- Land-Use Mix and Social Mix -- Sustainable Transportation -- Green Space -- 2.4.2 The Compact City Ideal: Benefits and Effects -- 2.4.3 Compact City Design Strategies and Their Link to the Sustainable Development Goals: An Empirical Basis -- 2.4.4 The Compact City Paradox: Conflicting and Contentious Issues -- 2.4.5 Compact City Planning and Development Problems, Issues, and Challenges -- 2.4.5.1 Deficiencies, Limitations, Fallacies, and Uncertainties.
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Intro -- Preface -- Key Aims and Major Themes -- Subject Treatment and What Makes the Book Unique in its Field -- Originality and Value -- Intended Readership -- Perspectives and Prospects -- Acknowledgements -- Contents -- About the Author -- 1 Introduction: The Rise of Sustainability, ICT, and Urbanization and the Materialization of Smart Sustainable Cities -- Abstract -- 1.1 Extended Background -- 1.1.1 Global Shifts at Play Across the World: The Dynamic Interplay Between Sustainability, ICT, and Urbanization -- 1.1.2 A State-of-the-Art Overview of the Field of Smart Sustainable Cities -- 1.1.2.1 Smart (and) Sustainable Urbanism: Key Contributions, Issues, and Challenges -- Sustainable Cities (Urban Forms) -- Smart Cities -- Smart Sustainable Cities -- 1.1.2.2 Smart (and) Sustainable Cities: Research Issues and Challenges -- Key Shortcomings of Smart Cities and Sustainable Cities -- Discrepancies Between Smart Cities and Sustainable Cities -- Key Benefits of Smart Cities and Sustainable Cities -- Key Knowledge Gaps Within the Field of Smart Sustainable Cities -- 1.1.2.3 ICT of the New Wave of Computing: Enabling Smart Sustainable Cities of the Future -- On the Urban Transformational Effects of ICT of the New Wave of Computing -- Technological Factors Underlying the Materialization of Smart Sustainable Cities -- Applications of ICT of the New Wave of Computing for Urban Sustainability -- Opportunities and Applications of Big Data Analytics and Context-Aware Computing -- Relevant Research Gaps and Scientific and Intellectual Challenges -- 1.2 The Aim and Objectives of the Book -- 1.3 The Motivations for the Book -- 1.4 The Structure of the Book and Its Contents -- References -- 2 Conceptual, Theoretical, Disciplinary, and Discursive Foundations: A Multidimensional Framework -- Abstract -- 2.1 Introduction.
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Recent advances in ICT have given rise to new socially disruptive technologies: AmI and the IoT, marking a major technological change which may lead to a drastic transformation of the technological ecosystem in all its complexity, as well as to a major alteration in technology use and thus daily living. Yet no work has systematically explored AmI and the IoT as advances in science and technology (ST) and sociotechnical visions in light of their nature, underpinning, and practices along with their implications for individual and social wellbeing and for environmental health. AmI and the IoT raise new sets of questions: In what way can we conceptualize such technologies? How can we evaluate their benefits and risks? How should science-based technology and society's politics relate? Are science-based technology and society converging in new ways? It is with such questions that this book is concerned. Positioned within the research field of Science and Technology Studies (STS), which encourages analyses whose approaches are drawn from a variety of disciplinary perspectives, this book amalgamates an investigation of AmI and the IoT technologies based on a unique approach to cross-disciplinary integration; their ethical, social, cultural, political, and environmental effects; and a philosophical analysis and evaluation of the implications of such effects.An interdisciplinary approach is indeed necessary to understand the complex issue of scientific and technological innovations that ST are not the only driving forces of the modern, high-tech society, as well as to respond holistically, knowledgeably, reflectively, and critically to the most pressing issues and significant challenges of the modern world.This book is the first systematic study on how AmI and the IoT applications of scientific discovery link up with other developments in the spheres of the European society, including culture, politics, policy, ethics and ecological philosophy. It situates AmI and the IoT developments and innovations as modernist science-based technology enterprises in a volatile and tense relationship with an inherently contingent, heterogeneous, fractured, conflictual, plural, and reflexive postmodern social world.The issue's topicality results in a book of interest to a wide readership in science, industry, politics, and policymaking, as well as of recommendation to anyone interested in learning the sociology, philosophy, and history of AmI and the IoT technologies, or to those who would like to better understand some of the ethical, environmental, social, cultural, and political dilemmas to what has been labeled the technologies of the 21st century. Simon E. Bibri is a PhD Candidate at the Norwegian University of Science and Technology (NTNU), Trondheim, Norway. He has a true passion for academic and lifelong learning and a natural thirst for knowledge. Having above all been intrigued by the relationship between scientific knowledge, technological systems, and society, he has wittingly and voluntarily chosen to pursue an unusual academic journey by embarking on studying a diverse range of subject areas - at the interaction of Science, Technology, and Society. His intellectual pursuits and endeavors have resulted, hitherto, in an educational background encompassing knowledge from, and meta-knowledge about, different academic disciplines. He holds a Bachelor of Science in computer engineering with a major in ICT strategy, a research-based Master of Science in computer science with a focus on Ambient Intelligence and ICT for sustainability, a Master of Science in computer science with a major in informatics, a Master of Science in entrepreneurship and innovation with a focus on new venture creation, a Master of Science in strategic leadership towards sustainability, a Master of Science in sustainable urban planning and development, a Master of Social Science with a major in business administration (MBA), a Master of Arts in communication and media for social change and a postgraduate degree in management and economics. In addition, he has a number of certificates, including innovation science, economics of innovation, teaching for sustainability, corporate entrepreneurship, project management, and policy in the European Union. He has received his Master's degrees and certificates from different universities in Sweden, namely Lund University, West University, Blekinge Institute of Technology, Malmö University, and Halmstad University.Before starting his Master studies' endeavor, Bibri worked as an ICT strategist. In 2004, he founded a small business and consulting firm where he served as a sustainability and green ICT strategist and consultant. Over the last few years, he has been involved in a number of research and consulting projects pertaining to the IoT, green ICT strategy, strategic sustainability innovations, circular business model innovation, clean and energy efficiency technology, sustainable urban planning, and sustainable urban models (eco-city, smart city, and compact city). Since his graduation in June 2014, he has been working as a freelance consultant in his areas of expertise and a research associate, giving lectures on specialized topics, and writing his second book.Bibri has a genuine interest in interdisciplinary and transdisciplinary research. In light of his varied academic background, his research interests include AmI, the IoT, social shaping of science-based technology, philosophy and sociology of scientific knowledge, sustainability transitions and innovations, urban sustainability, eco-city and smart city, governance of sociotechnical changes in technological innovation systems, green and knowledge-intensive innovation, clean and energy efficiency technology, green and circular economy, and ST and innovation policy.
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AbstractAs materializations of trends toward developing and implementing urban socio-technical and enviro-economic experiments for transition, eco-cities have recently received strong government and institutional support in many countries around the world due to their ability to function as an innovative strategic niche where to test and introduce various reforms. There are many models of the eco-city based mainly on either following the principles of urban ecology or combining the strategies of sustainable cities and the solutions of smart cities. The most prominent among these models are sustainable integrated districts and data-driven smart eco-cities. The latter model represents the unprecedented transformative changes the eco-city is currently undergoing in light of the recent paradigm shift in science and technology brought on by big data science and analytics. This is motivated by the growing need to tackle the problematicity surrounding eco-cities in terms of their planning, development, and governance approaches and practices. Employing a combination of both best-evidence synthesis and narrative approaches, this paper provides a comprehensive state-of-the-art and thematic literature review on sustainable integrated districts and data-driven smart eco-cities. The latter new area is a significant gap in and of itself that this paper seeks to fill together with to what extent the integration of eco-urbanism and smart urbanism is addressed in the era of big data, what driving factors are behind it, and what forms and directions it takes. This study reveals that eco-city district developments are increasingly embracing compact city strategies and becoming a common expansion route for growing cities to achieve urban ecology or urban sustainability. It also shows that the new eco-city projects are increasingly capitalizing on data-driven smart technologies to implement environmental, economic, and social reforms. This is being accomplished by combining the strengths of eco-cities and smart cities and harnessing the synergies of their strategies and solutions in ways that enable eco-cities to improve their performance with respect to sustainability as to its tripartite composition. This in turn means that big data technologies will change eco-urbanism in fundamental and irreversible ways in terms of how eco-cities will be monitored, understood, analyzed, planned, designed, and governed. However, smart urbanism poses significant risks and drawbacks that need to be addressed and overcome in order to achieve the desired outcomes of ecological sustainability in its broader sense. One of the key critical questions raised in this regard pertains to the very potentiality of the technocratic governance of data-driven smart eco-cities and the associated negative implications and hidden pitfalls. In addition, by shedding light on the increasing adoption and uptake of big data technologies in eco-urbanism, this study seeks to assist policymakers and planners in assessing the pros and cons of smart urbanism when effectuating ecologically sustainable urban transformations in the era of big data, as well as to stimulate prospective research and further critical debates on this topic.
AbstractThe increased pressure on cities has led to a stronger need to build sustainable cities that can last. Planning sustainable cities of the future, educated by the lessons of the past and anticipating the challenges of the future, entails articulating a multi-scalar vision that, by further interplaying with major societal trends and paradigm shifts in science and technology, produce new opportunities towards reaching the goals of sustainability. Enabled by big data science and analytics, the ongoing transformative processes within sustainable cities are motivated by the need to address and overcome the challenges hampering progress towards sustainability. This means that sustainable cities should be understood, analyzed, planned, designed, and managed in new and innovative ways in order to improve and advance their contribution to sustainability. Therefore, sustainable cities are increasingly embracing and leveraging what smart cities have to offer in terms of data-driven technologies and applied solutions so as to optimize, enhance, and maintain their performance and thus achieve the desired outcomes of sustainability—under what has been termed "data-driven smart sustainable cities." Based on a case study analysis, this paper develops an applied theoretical framework for strategic sustainable urban development planning. This entails identifying and integrating the underlying components of data-driven smart sustainable cities of the future in terms of the dimensions, strategies, and solutions of the leading global paradigms of sustainable urbanism and smart urbanism. The novelty of the proposed framework lies in combining compact urban design strategies, eco-city design strategies and technology solutions; data-driven smart city technologies, competences, and solutions for sustainability; and environmentally data-driven smart sustainable city solutions and strategies. These combined have great potential to improve and advance the contribution of sustainable cities to the goals of sustainability through harnessing its synergistic effects and balancing the integration of its dimensions. The main contribution of this work lies in providing new insights into guiding the development of various types of strategic planning processes of transformative change towards sustainability, as well as to stimulate and inspire future research endeavors in this direction. This study informs policymakers and planners about the opportunity of attaining important advances in sustainability by integrating the established models of sustainable urbanism and the emerging models of smart urbanism thanks to the proven role and untapped potential of data-driven technologies in catalyzing sustainable development and thus boosting sustainability benefits.
The IoT and big data technologies have become essential to the functioning of both smart cities and sustainable cities, and thus, urban operational functioning and planning are becoming highly responsive to a form of data-driven urbanism. This offers the prospect of building models of smart sustainable cities functioning in real time from routinely sensed data. This in turn allows to monitor, understand, analyze, and plan such cities to improve their energy efficiency and environmental health in real time thanks to new urban intelligence functions as an advanced form of decision support. However, prior studies tend to deal largely with data-driven technologies and solutions in the realm of smart cities, mostly in relation to economic and social aspects, leaving important questions involving the underlying substantive and synergistic effects on environmental sustainability barely explored to date. These issues also apply to sustainable cities, especially eco-cities. Therefore, this paper investigates the potential and role of data-driven smart solutions in improving and advancing environmental sustainability in the context of smart cities as well as sustainable cities, under what can be labeled "environmentally data-driven smart sustainable cities." To illuminate this emerging urban phenomenon, a descriptive/illustrative case study is adopted as a qualitative research methodology§ to examine and compare Stockholm and Barcelona as the ecologically and technologically leading cities in Europe respectively. The results show that smart grids, smart meters, smart buildings, smart environmental monitoring, and smart urban metabolism are the main data-driven smart solutions applied for improving and advancing environmental sustainability in both eco-cities and smart cities. There is a clear synergy between such solutions in terms of their interaction or cooperation to produce combined effects greater than the sum of their separate effects—with respect to the environment. This involves energy efficiency improvement, environmental pollution reduction, renewable energy adoption, and real-time feedback on energy flows, with high temporal and spatial resolutions. Stockholm takes the lead over Barcelona as regards the best practices for environmental sustainability given its long history of environmental work, strong environmental policy, progressive environmental performance, high environmental standards, and ambitious goals. It also has, like Barcelona, a high level of the implementation of applied data-driven technology solutions in the areas of energy and environment. However, the two cities differ in the nature of such implementation. We conclude that city governments do not have a unified agenda as a form of strategic planning, and data-driven decisions are unique to each city, so are environmental challenges. Big data are the answer, but each city sets its own questions based on what characterize it in terms of visions, policies, strategies, pathways, and priorities. ; publishedVersion