From the ‘smart ground’ to the ‘smart city’: An analysis of ten European case-studies

During the last two centuries, the urban percentage of the world's population, combined with the overall growth phenomenon, has deeply increased and it is projected to reach 60% by 2030. In this current context linked to environmental issues managing to plan sustainable cities appears a main policy target. The implementation of Zero Energy Buildings as a European target becomes a challenge for the energy savings with the significant commitment for larger urban scales. The aim of this paper is the development of a methodological systemic approach about energy management in a ‘district scale’ with zero energy context within the analysis of ten European case-studies to the potential of a ‘smart ground’ towards the development of a ‘smart city’. This work opens and addresses numerous future research perspectives that should be investigated widely to develop districts with an operational, sustainable and long-term context.

[1]  R. Hollands Will the real smart city please stand up? , 2008, The Routledge Companion to Smart Cities.

[2]  Nicos Komninos,et al.  Intelligent cities: Variable geometries of spatial intelligence , 2011 .

[3]  Simon Joss,et al.  Sustainable–Smart–Resilient–Low Carbon–Eco–Knowledge Cities; Making sense of a multitude of concepts promoting sustainable urbanization , 2015 .

[4]  Jose Villar,et al.  Energy management and planning in smart cities , 2016 .

[5]  Dionysia Kolokotsa,et al.  The role of smart grids in the building sector , 2016 .

[6]  M. Angelidou Smart cities: A conjuncture of four forces , 2015 .

[7]  Luca Evangelisti,et al.  An Integrated Approach for an Historical Buildings Energy Analysis in a Smart Cities Perspective , 2014 .

[8]  M. G. Pérez,et al.  A multi-criteria approach to compare urban renewal scenarios for an existing neighborhood. Case study in Lausanne (Switzerland) , 2013 .

[9]  Isabel de la Torre Díez,et al.  Development and Evaluation of Tools for Measuring the Quality of Experience (QoE) in mHealth Applications , 2013, Journal of Medical Systems.

[10]  Sigrid Reiter,et al.  A simplified framework to assess the feasibility of zero-energy at the neighbourhood/community scale , 2014 .

[11]  Bryan Scotney,et al.  Smart City Architecture and its Applications Based on IoT , 2015, ANT/SEIT.

[12]  Paris A. Fokaides,et al.  European smart cities: The role of zero energy buildings , 2015 .

[13]  Ali Mostashari,et al.  Conceptual Modeling of the Impact of Smart Cities on Household Energy Consumption , 2014, CSER.