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Urban Intelligence for Sustainability

  • Miguel de Castro NetoEmail author
  • João Sousa Rego
Conference paper
Part of the Lecture Notes in Information Systems and Organisation book series (LNISO, volume 31)

Abstract

A smart city can be seen as an urban space that takes advantage of information and communication technologies and data science to answer todays challenges, namely to become more efficient in services and infrastructures management and to deliver increased quality of life to the people who lives, works or visits the city, not forgetting the support to fight climate change. In this framework cities governments are nowadays under pressure and going through a digital transformation process that is translated in the proliferation of “Smart Cities” initiatives around the world as part of the strategic response to the challenges and opportunities of growing urbanization and climate change altogether with the emergence of cities as a space for social and economic development framed by an urgent need for global sustainability. In this work we will propose a concept of urban intelligence and its building blocks that result from the city digital transformation process which will lead to a paradigm shift leading to the city as a platform where urban planning and management for sustainability is supported by urban analytics and real time data.

Keywords

Urban intelligence Smart cities Sustainability City as a platform Digital transformation 

References

  1. Ahfeldt, G. M., & Pietrostefani, E. (2017). The compact city in empirical research: A quantitative literature review. SERC Discussion Papers, SERCDP0215. Spatial Economics Research Centre, London School of Economics and Political Science, London, UK.Google Scholar
  2. Alawadhi, S., Aldama-Nalda, A., Chourabi, H., Gil-Garcia, J. R., Leung, S., Mellouli, S., Nam, T., Pardo, T. A., Scholl, H. J., & S. Walker. (2012). Building understanding of smart city initiatives (pp. 40–53). 11ª IFIP WG 8.5. Kristiansand, Norway, September 3–6, 2012.Google Scholar
  3. Albino, V., Berardi, U., & Dangelico, R. M. (2015). Smart cities: Definitions, dimensions, performance, and initiatives. Journal of Urban Technology, 22(1), 3–21.  https://doi.org/10.1080/10630732.2014.942092.CrossRefGoogle Scholar
  4. Anthopoulos, L., Janssen, M., & Weerakkody, V. (2016). A Unified Smart City Model (USCM) for smart city conceptualization and benchmarking. International Journal of Electronic Government Research, 12(2), 77–93.  https://doi.org/10.4018/IJEGR.2016040105.CrossRefGoogle Scholar
  5. Bakıcı, T., Almirall, E. & Wareham, J. (2012). A smart city initiative: the case of Barcelona. Journal of the Knowledge Economy, 2(1), 1–14.Google Scholar
  6. Bollier, D. (2016). The city as platform: How digital networks are changing urban life and governance. Aspen Institute Communications and Society, from http://csreports.aspeninstitute.org/documents/CityAsPlatform.pdf.
  7. Fernandes, G. (2017). A framework for dashboarding city performance: An application to Cascais smart city. Mestrado em Gestão de Informação, NOVA Information Management School, Universidade Nova de Lisboa.Google Scholar
  8. FIWARE. (2016). FIWARE core platform of the future Internet. September 01, 2017, from https://www.fiware.org/.
  9. Giffinger, R., Fertner, C., Kramar, H., Kalasek, R., Pichler-Milanovic, N., & Meijers, E. (2007). Smart Cities: Ranking of European Medium-sized Cities, Vienna: Centre of Regional Science.Google Scholar
  10. Intergovernmental Panel on Climate Change Special Report on Global Warming of 1.5 °C approved by governments (2018).Google Scholar
  11. International Organization for Standardization NP 37120:2017-pt.Google Scholar
  12. ISO/TC 268 Technical Commission. (2014). ISO 37120:2014—Sustainable development of communities, Indicators for city services and quality of life.Google Scholar
  13. Khatoun, R., & Zeadally, S. (2016). Smart cities: Concepts, architectures, research opportunities. Communications of the ACM, 59(8), 46–57.  https://doi.org/10.1145/2858789.CrossRefGoogle Scholar
  14. Manville, C., Cochrane, G., Cave, J., Millard, J., Pederson, J., Thaarup, R., & Kotterink, B. (2014). Mapping smart cities in the EU. Retrieved from http://www.europarl.europa.eu/RegData/etudes/etudes/join/2014/507480/IPOL-ITRE_ET(2014)507480_EN.pdf.
  15. Marsal-Llacuna, M.L., Colomer-Llinàs, J. & Meléndez-Frigola, J. (2015). Lessons in urban monitoring taken from sustainable and livable cities to better address the Smart Cities initiative. Technological Forecasting and Social Change, 90(PB), 611–622.Google Scholar
  16. OECD. (2015). Data-driven innovation: Big data for growth and well-being.Google Scholar
  17. Ojo, A., Curry, E., & Zeleti, F. A. (2015). A tale of open data innovations in five smart cities. In Proceedings of the 48ª conferência internacional do Hawaii em sistemas cientificos (pp. 2326–2335).Google Scholar
  18. Open Knowledge International. (2017). Open knowledge definition. Version 1.1, from http://opendefinition.org/od/1.1/.
  19. Strategic Policy Forum on Digital Entrepreneurship. (2016). Blueprint for cities and regions as launch pads for digital transformation. Retrieved from http://ec.europa.eu/DocsRoom/documents/16762/attachments/1/translations/en/renditions/native.
  20. Telefonica. (2016). Smart cities—The city as a platform for digital transformation—policy paper.Google Scholar
  21. Telefónica IoT Team. (2016). Challenges and opportunities for the digital transformation of smart cities, from https://iot.telefonica.com/blog/challenges-and-opportunities-for-the-digital-transformation-of-smart-cities.
  22. UNEP. (2017, March 09, 2017). United nations environment programme, September 01, 2017, from http://www.unep.org/.

Copyright information

© Springer Nature Switzerland AG 2019

Authors and Affiliations

  1. 1.Nova Information Management SchoolNOVA IMS Universidade Nova de LisboaLisbonPortugal

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