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Sustainability Science

, Volume 12, Issue 6, pp 881–885 | Cite as

Facilitating data-intensive approaches to innovation for sustainability: opportunities and challenges in building smart cities

Short Commentary

Abstract

Sustainability concerns reducing air and water pollution, improving energy efficiency while securing energy supply, and maintaining resilience to disasters. Interconnected in complex and dynamic ways, these challenges pose formidable difficulties and obstacles in designing and implementing sustainable smart cities. As various types of data are increasingly available on diverse dimensions of cities, it is critical to assemble and integrate them in creating innovation. Sustainability science communities can play an important crucial role in facilitating the exchange and sharing of data accumulated through research activities. Institutional arrangements need to be aligned with incentives to stakeholders in promoting open data for innovation.

Keywords

Data-intensive approach Smart city Innovation Open data Sustainability 

References

  1. Bai X, Shi P, Liu Y (2014) Realizing China’s urban dream. Nature 509:158–160CrossRefGoogle Scholar
  2. Bin S, Zhiquan Y, Jonathan LSC, Jiewei DK, Kurle D, Cerdas F, Herrmann C (2015) A big data analytics approach to develop industrial symbioses in large cities. Procedia CIRP 29:450–455CrossRefGoogle Scholar
  3. Clark WC, van Kerkhoff L, Lebel L, Gallopin GC (2016) Crafting usable knowledge for sustainable development. Proc Natl Acad Sci 113(17):4570–4578CrossRefGoogle Scholar
  4. Cohen W, Walsh J (2008) Real Impediments to Academic Research. In: Jaffe AB, Lerner J, Stern S (eds) Innovation policy and the economy, vol 8. University of Chicago Press, ChicagoGoogle Scholar
  5. DIAS (2017). Data integration and analysis system program. http://www.diasjp.net/en/. Accessed 29 Aug 2017
  6. Grubler A, Fisk D (eds) (2013) Energizing sustainable cities: assessing urban energy. Routledge, LondonGoogle Scholar
  7. Haeussler C, Jiang L, Thursby J, Thursby M (2014) Specific and general information sharing among competing academic researchers. Res Policy 43(3):465–475CrossRefGoogle Scholar
  8. Independent Expert Advisory Group on a Data Revolution for Sustainable Development (2014) A world that counts: mobilising the data revolution for sustainable development. Report prepared at the request of the United Nations Secretary—General, NovemberGoogle Scholar
  9. Kajikawa Y, Ohno J, Takeda Y, Matsushima K, Komiyama H (2007) Creating an academic landscape of sustainability science: an analysis of the citation network. Sustain Sci 2:221–231CrossRefGoogle Scholar
  10. Kajikawa Y, Tacoa F, Yamaguchi K (2014) Sustainability science: the changing landscape of sustainability research. Sustain Sci 9(4):431–438CrossRefGoogle Scholar
  11. Kates RW, Clark WC, Corell R, Hall JM, Jaeger CC, Lowe I, McCarthy JJ, Schellnhuber HJ, Bolin B, Dickson NM, Faucheux S, Gallopin GC, Grubler A, Huntley B, Jager J, Jodha NS, Kasperson RE, Mabogunje A, Matson P, Mooney H, Moore BI, O’Riordan T, Svedin U (2001) Sustainability science. Science 292(5517):641–642CrossRefGoogle Scholar
  12. Kharrazi A, Qin H, Zhang Y (2016) Urban big data and sustainable development goals: challenges and opportunities. Sustainability 8(12):1293CrossRefGoogle Scholar
  13. Liu X, Song Y, Wu K, Wang J, Li D, Long Y (2015) Understanding urban China with open data. Cities 47:53–61CrossRefGoogle Scholar
  14. Mutisya E, Yarime M (2014) Moving towards urban sustainability in Kenya: a framework for integration of environmental, economic, social and governance dimensions. Sustain Sci 9(2):205–215CrossRefGoogle Scholar
  15. Ono M, Koike T, Shibasaki R (2016) Survey for research data sharing in earth environmental information domain: realities in research community. J Inf Process Manag 59(8):514–525Google Scholar
  16. Organisation for Economic Co-operation and Development (2015a) Inquiries into intellectual property’s economic impact. OECDGoogle Scholar
  17. Organisation for Economic Co-operation and Development (2015b) Making open science a reality. OECDGoogle Scholar
  18. Ostrom E (2009) A general framework for analyzing sustainability of social-ecological systems. Science 325(5939):419–422CrossRefGoogle Scholar
  19. Selomane O, Reyers B, Biggs R, Tallis H, Polasky S (2015) Towards integrated social–ecological sustainability indicators: exploring the contribution and gaps in existing global data. Ecol Econ 118:140–146CrossRefGoogle Scholar
  20. Thursby M, Thursby JG, Haeussler C, Jiang L (2009) Do academic scientists share information with their colleagues? Not necessarilyGoogle Scholar
  21. United Nations (2015a) Transforming our world: the 2030 agenda for sustainable development. resolution adopted by the general assembly on 25 September 2015, A/RES/70/1, 21 OctoberGoogle Scholar
  22. United Nations (2015b) World Urbanization Prospects: the 2014 Revision. ST/ESA/SER.A/366, Department of economic and social affairs, Population divisionGoogle Scholar
  23. United Nations Global Pulse (2015) Big data for development in action: the global pulse project series. United Nations Global Pulse, New YorkGoogle Scholar
  24. Van den Eynden V, Bishop L (2014) Sowing the seed: incentives and motivations for sharing research data, a researcher’s perspective. Knowledge exchange reportGoogle Scholar
  25. World Bank (2015). World Bank Data. Sub-Saharan Africa (developing only). World Bank Group. http://data.worldbank.org/region/SSA. Accessed 10 Dec 2015
  26. Xu M, Cai H, Liang S (2015) Big data and industrial ecology. J Ind Ecol 19(2):205–210CrossRefGoogle Scholar
  27. Yarime M, Tanaka Y (2012) The issues and methodologies in sustainability assessment tools for Higher Educational Institutions: a review of recent trends and future challenges. J Educ Sustain Dev 6(1):63–77CrossRefGoogle Scholar
  28. Yarime M, Takeda Y, Kajikawa Y (2010) Towards institutional analysis of sustainability science: a quantitative examination of the patterns of research collaboration. Sustain Sci 5(1):115–125CrossRefGoogle Scholar
  29. Yarime M, Trencher G, Mino T, Scholz RW, Olsson L, Ness B, Frantzeskaki N, Rotmans J (2012) Establishing sustainability science in higher education institutions: towards an integration of academic development, institutionalization, and stakeholder collaborations. Sustain Sci 7(Supplement 1):101–113CrossRefGoogle Scholar

Copyright information

© Springer Japan KK 2017

Authors and Affiliations

  1. 1.School of Energy and EnvironmentCity University of Hong KongKowloonHong Kong
  2. 2.Department of Science, Technology, Engineering and Public PolicyUniversity College LondonLondonUK
  3. 3.Graduate School of Public PolicyUniversity of TokyoTokyoJapan

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