Paper by Barker, Matthew; Wolff, Annika and van der Linden, Janet: “The smart city has been envisioned as a place where citizens can participate in city decision making and in the design of city services. As a key part of this vision, pervasive digital technology and open data legislation are being framed as vehicles for citizens to access rich data about their city. It has become apparent though, that simply providing access to these resources does not automatically lead to the development of data-driven applications. If we are going to engage more of the citizenry in smart city design and raise productivity, we are going to need to make the data itself more accessible, engaging and intelligible for non-experts. This ongoing study is exploring one method for doing so. As part of the MK:Smart City project team, we are developing a tangible data look-up interface that acts as an alternative to the conventional DataBase. This interface, or DataPlace as we are calling it, takes the form of a map, which the user places sensors on to physically capture real-time data. This is a simulation of the physical act of capturing data in the real world. We discuss the design of the DataPlace prototype under development and the planned user trials to test out our hypothesis; that a DataPlace can make handling data more accessible, intelligible and engaging for non-experts than conventional interface types….(More)”
Digital Kenya: An Entrepreneurial Revolution in the Making
(Open Access) book edited by Bitange Ndemo and Tim Weiss: “Presenting rigorous and original research, this volume offers key insights into the historical, cultural, social, economic and political forces at play in the creation of world-class ICT innovations in Kenya. Following the arrival of fiber-optic cables in 2009, Digital Kenya examines why the initial entrepreneurial spirit and digital revolution has begun to falter despite support from motivated entrepreneurs, international investors, policy experts and others. Written by engaged scholars and professionals in the field, the book offers 15 eye-opening chapters and 14 one-on-one conversations with entrepreneurs and investors to ask why establishing ICT start-ups on a continental and global scale remains a challenge on the “Silicon Savannah”. The authors present evidence-based recommendations to help Kenya to continue producing globally impactful ICT innovations that improve the lives of those still waiting on the side-lines, and to inspire other nations to do the same….(More)”
The ethical impact of data science
Theme issue of Phil. Trans. R. Soc. A compiled and edited by Mariarosaria Taddeo and Luciano Floridi: “This theme issue has the founding ambition of landscaping data ethics as a new branch of ethics that studies and evaluates moral problems related to data (including generation, recording, curation, processing, dissemination, sharing and use), algorithms (including artificial intelligence, artificial agents, machine learning and robots) and corresponding practices (including responsible innovation, programming, hacking and professional codes), in order to formulate and support morally good solutions (e.g. right conducts or right values). Data ethics builds on the foundation provided by computer and information ethics but, at the same time, it refines the approach endorsed so far in this research field, by shifting the level of abstraction of ethical enquiries, from being information-centric to being data-centric. This shift brings into focus the different moral dimensions of all kinds of data, even data that never translate directly into information but can be used to support actions or generate behaviours, for example. It highlights the need for ethical analyses to concentrate on the content and nature of computational operations—the interactions among hardware, software and data—rather than on the variety of digital technologies that enable them. And it emphasizes the complexity of the ethical challenges posed by data science. Because of such complexity, data ethics should be developed from the start as a macroethics, that is, as an overall framework that avoids narrow, ad hoc approaches and addresses the ethical impact and implications of data science and its applications within a consistent, holistic and inclusive framework. Only as a macroethics will data ethics provide solutions that can maximize the value of data science for our societies, for all of us and for our environments….(More)”
Table of Contents:
- The dynamics of big data and human rights: the case of scientific research; Effy Vayena, John Tasioulas
- Facilitating the ethical use of health data for the benefit of society: electronic health records, consent and the duty of easy rescue; Sebastian Porsdam Mann, Julian Savulescu, Barbara J. Sahakian
- Faultless responsibility: on the nature and allocation of moral responsibility for distributed moral actions; Luciano Floridi
- Compelling truth: legal protection of the infosphere against big data spills; Burkhard Schafer
- Locating ethics in data science: responsibility and accountability in global and distributed knowledge production systems; Sabina Leonelli
- Privacy is an essentially contested concept: a multi-dimensional analytic for mapping privacy; Deirdre K. Mulligan, Colin Koopman, Nick Doty
- Beyond privacy and exposure: ethical issues within citizen-facing analytics; Peter Grindrod
- The ethics of smart cities and urban science; Rob Kitchin
- The ethics of big data as a public good: which public? Whose good? Linnet Taylor
- Data philanthropy and the design of the infraethics for information societies; Mariarosaria Taddeo
- The opportunities and ethics of big data: practical priorities for a national Council of Data Ethics; Olivia Varley-Winter, Hetan Shah
- Data science ethics in government; Cat Drew
- The ethics of data and of data science: an economist’s perspective; Jonathan Cave
- What’s the good of a science platform? John Gallacher
Thinking about Smart Cities: The Travels of a Policy Idea that Promises a Great Deal, but So Far Has Delivered Modest Results
Paper by Amy K. Glasmeier and Molly Nebiolo in Sustainability: “… explores the unique challenge of contemporary urban problems and the technologies that vendors have to solve them. An acknowledged gap exists between widely referenced technologies that city managers utilize to optimize scheduled operations and those that reflect the capability of spontaneity in search of nuance–laden solutions to problems related to the reflexivity of entire systems. With regulation, the first issue type succumbs to rehearsed preparation whereas the second hinges on extemporaneous practice. One is susceptible to ready-made technology applications while the other requires systemic deconstruction and solution-seeking redesign. Research suggests that smart city vendors are expertly configured to address the former, but less adept at and even ill-configured to react to and address the latter. Departures from status quo responses to systemic problems depend on formalizing metrics that enable city monitoring and data collection to assess “smart investments”, regardless of the size of the intervention, and to anticipate the need for designs that preserve the individuality of urban settings as they undergo the transformation to become “smart”….(More)”
How to ensure smart cities benefit everyone
By 2030, 60 percent of the world’s population is expected to live in mega-cities. How all those people live, and what their lives are like, will depend on important choices leaders make today and in the coming years.
Technology has the power to help people live in communities that are more responsive to their needs and that can actually improve their lives. For example, Beijing, notorious for air pollution, is testing a 23-foot-tall air purifier that vacuums up smog, filters the bad particles and releases clear air.
This isn’t a vision of life like on “The Jetsons.” It’s real urban communities responding in real-time to changing weather, times of day and citizen needs. These efforts can span entire communities. They can vary from monitoring traffic to keep cars moving efficiently or measuring air quality to warn residents (or turn on massive air purifiers) when pollution levels climb.
Using data and electronic sensors in this way is often referred to as building “smart cities,” which are the subject of a major global push to improve how cities function. In part a response to incoherent infrastructure design and urban planning of the past, smart cities promise real-time monitoring, analysis and improvement of city decision-making. The results, proponents say, will improve efficiency, environmental sustainability and citizen engagement.
Smart city projects are big investments that are supposed to drive social transformation. Decisions made early in the process determine what exactly will change. But most research and planning regarding smart cities is driven by the technology, rather than the needs of the citizens. Little attention is given to the social, policy and organizational changes that will be required to ensure smart cities are not just technologically savvy but intelligently adaptive to their residents’ needs. Design will make the difference between smart city projects offering great promise or actually reinforcing or even widening the existing gaps in unequal ways their cities serve residents.
City benefits from efficiency
A key feature of smart cities is that they create efficiency. Well-designed technology tools can benefit government agencies, the environment and residents. Smart cities can improve the efficiency of city services by eliminating redundancies, finding ways to save money and streamlining workers’ responsibilities. The results can provide higher-quality services at lower cost….
Environmental effects
Another way to save money involves real-time monitoring of energy use, which can also identify opportunities for environmental improvement.
The city of Chicago has begun implementing an “Array of Things” initiative by installing boxes on municipal light poles with sensors and cameras that can capture air quality, sound levels, temperature, water levels on streets and gutters, and traffic.
The data collected are expected to serve as a sort of “fitness tracker for the city,” by identifying ways to save energy, to address urban flooding and improve living conditions.
Helping residents
Perhaps the largest potential benefit from smart cities will come from enhancing residents’ quality of life. The opportunities cover a broad range of issues, including housing and transportation, happiness and optimism, educational services, environmental conditions and community relationships.
Efforts along this line can include tracking and mapping residents’ health, using data to fight neighborhood blight, identifying instances of discrimination and deploying autonomous vehicles to increase residents’ safety and mobility….(More)“.
Enriching Urban Spaces with Ambient Computing, the Internet of Things, and Smart City Design
Book by Shin’ichi Konomi and George Roussos: “In recent years, the presence of ubiquitous computing has increasingly integrated into the lives of people in modern society. As these technologies become more pervasive, new opportunities open for making citizens’ environments more comfortable, convenient, and efficient.
Enriching Urban Spaces with Ambient Computing, the Internet of Things, and Smart City Design is a pivotal reference source for the latest scholarly material on the interaction between people and computing systems in contemporary society, showcasing how ubiquitous computing influences and shapes urban environments. Highlighting the impacts of these emerging technologies from an interdisciplinary perspective, this book is ideally designed for professionals, researchers, academicians, and practitioners interested in the influential state of pervasive computing within urban contexts….(Table of Contents and List of Contributors)”.
Empowering cities
“The real story on how citizens and businesses are driving smart cities” by the Economist Intelligence Unit: “Digital technologies are the lifeblood of today’s cities. They are applied widely in industry and society, from information and communications technology (ICT) to the Internet of Things (IoT), in which objects are connected to the Internet. As sensors turn any object into part of an intelligent urban network, and as computing power facilitates analysis of the data these sensors collect, elected officials and city administrators can gain an unparalleled understanding of the infrastructure and services of their city. However, to make the most of this intelligence, another ingredient is essential: citizen engagement. Thanks to digital technologies, citizens can provide a steady flow of feedback and ideas to city officials.
This study by The Economist Intelligence Unit (EIU), supported by Philips Lighting, investigates how citizens and businesses in 12 diverse cities around the world—Barcelona, Berlin, Buenos Aires, Chicago, London, Los Angeles, Mexico City, New York City, Rio de Janeiro, Shanghai, Singapore and Toronto—envision the benefits of smart cities. The choices of the respondents to the survey reflect the diverse nature of the challenges and opportunities facing different cities, from older cities in mature markets, where technology is at work with infrastructure that may be centuries old, to new cities in emerging markets, which have the opportunity to incorporate digital technologies as they grow.
Coupled with expert perspectives, these insights paint a fresh picture of how digital technologies can empower people to contribute-giving city officials a roadmap to smart city life in the 21st century….(More)”
Sustainable Smart Cities: Creating Spaces for Technological, Social and Business Development
Book edited by Peris-Ortiz, Marta, Bennett, Dag, and Pérez-Bustamante Yábar, Diana: “This volume provides the most current research on smart cities. Specifically, it focuses on the economic development and sustainability of smart cities and examines how to transform older industrial cities into sustainable smart cities. It aims to identify the role of the following elements in the creation and management of smart cities:
- Citizen participation and empowerment
- Value creation mechanisms
- Public administration
- Quality of life and sustainability
- Democracy
- ICT
- Private initiatives and entrepreneurship
Regardless of their size, all cities are ultimately agglomerations of people and institutions. Agglomeration economies make it possible to attain minimum efficiencies of scale in the organization and delivery of services. However, the economic benefits do not constitute the main advantage of a city. A city’s status rests on three dimensions: (1) political impetus, which is the result of citizens’ participation and the public administration’s agenda; (2) applications derived from technological advances (especially in ICT); and (3) cooperation between public and private initiatives in business development and entrepreneurship. These three dimensions determine which resources are necessary to create smart cities. But a smart city, ideal in the way it channels and resolves technological, social and economic-growth issues, requires many additional elements to function at a high-performance level, such as culture (an environment that empowers and engages citizens) and physical infrastructure designed to foster competition and collaboration, encourage new ideas and actions, and set the stage for new business creation. …(More)”.
Seeing Cities Through Big Data
Book edited by Thakuriah, Piyushimita (Vonu), Tilahun, Nebiyou, and Zellner, Moira: “… introduces the latest thinking on the use of Big Data in the context of urban systems, including research and insights on human behavior, urban dynamics, resource use, sustainability and spatial disparities, where it promises improved planning, management and governance in the urban sectors (e.g., transportation, energy, smart cities, crime, housing, urban and regional economies, public health, public engagement, urban governance and political systems), as well as Big Data’s utility in decision-making, and development of indicators to monitor economic and social activity, and for urban sustainability, transparency, livability, social inclusion, place-making, accessibility and resilience…(More)”
The well-informed city: A decentralized, bottom-up model for a smart city service using information and self-organization
Smart Cities, a concept widely growing in popularity, describes cities that use digital technology, data analysis and connectivity to create value. The basic abstraction of a Smart City service includes collecting data about an urban issue, transmitting it to a central decision making process and “improving” the city with the insights generated. This model has spurred much critique, claiming Smart Cities are undemocratic, discriminatory and cannot significantly improve citizen’s quality of life. But what if the citizens were active in the process? It was Jane Jacobs who said “Cities have the capability of providing something for everybody, only because, and only when, they are created by everybody.” In this paper we lay a conceptual groundwork to envision “The Well-Informed City” — a decentralized, self-organizing Smart City service, where the value is created by everybody. The agents, who are the citizens of the city, are the ones who use the data to create value. We base the model on the cities’ feature of Self-Organization as described in the domain of Complexity Theory of Cities. We demonstrate its theoretical possibility, describe a short case study and finish with suggestions for future empirical research. This work is highly significant due to the ubiquitous nature of contemporary mobile based information services and growing open data sets….(More)”