Urban Regeneration: a Multidisciplinary Approach
DOI:
https://doi.org/10.26375/disegno.4.2019.19Keywords:
city, periphery, complexity, neglect, ICTAbstract
The main objective of the DATA –Developing Abandoned Transurban Areas– research project, hosted by the University of Padua and financed by the Veneto Region, is to design innovative strategies to recover, regenerate, and enhance abandoned areas located on the margins of the consolidated city. Abandoned urban areas around Padua, the case study of the project, are a particularly important example in consideration of the fact that northern Italy contains the highest increase in land consumption in the country (8.4% in 2013; ISPRA 2015) and, in particular, the city is first in the region for the percentage of land used (49% in 2013; ARPA Veneto 2015). The objective is therefore to build transformation scenarios for development and economic rebirth in reference to sustainable living in compromised urban areas awaiting regeneration. The multidisciplinary structure of the project is organized into six distinct, complementary areas: web GIS; BIM and land information modelling; pilot scenario design; urban planning and feasibility studies; waste recycling; and data management and ICT. (G.P., L.S.).
References
Allen, J., Lupo, E. (2012). Representing Museum Technologies. MelaBooks/Politecnico di Milano.
Antinucci, F. (2009). L’algoritmo al potere. Vita quotidiana ai tempi di Google. Roma-Bari: Laterza.
Barbato D., De Marchi M., Pristeri G. (2018). GIS-BIM Interoperability for Regeneration of Transurban Areas. In M. Schrenk et al.(eds.). Proceedings of RealCORP Conference 2018. Expanding cities, diminishing space. Vienna, 4-6 April 2018, pp. 243-250. Roma-Milano: Planum Publisher.
Casti, E. (2014). Aree dismesse e obsolete in Lombardia. Rapporto I fase di ricerca del progetto Rifo/It. Rigenerazione urbana e restituzione del suolo. Bergamo: Bergamo University press. DiathesisLab-Università degli Studi di Bergamo, pp.10-16.
Lavagnolo M.C., Malesani R., Stendardo S. (2017). Urban Mining and Water Recycle For Abandoned Transurban Areas (DATA project). In Cossu R. et al. (eds.). Sardinia 2017. Sixteenth International Waste Management and Landfill Symposium, p. ....... Padova: CISA Publisher.
Levy, P. (1997). Il virtuale. Milano: Raffaello Cortina Editore.
Mangialardi, G. (2017). Reflections on urban management for unravelling the complexity. In Urbanistica Informazioni, n. 272, pp. 606-609.
Manovich, L. (2008). Il linguaggio dei nuovi media. Milano: Olivares.
Prescia, R., Trapani, F. (a cura di). (2016). Rigenerazione urbana, innovazione sociale e cultura del progetto. Milano: FrancoAngeli.
Pristeri G. et al. (2017). Un WebGIS per la conoscenza di aree transurbane a Padova. In Urbanistica Informazioni, n. 272, pp. 595-599.
Pristeri G. et al. (2018). An Open Multi-User Platform in Support of Urban Development: The DATA webGIS. In M. Schrenk et al. (eds.). Proceedings of RealCORP Conference 2018. Expanding cities, diminishing space. Vienna, 4-6 April 2018, pp. 67-74. Roma-Milano: Planum Publisher.
Redetti E., Savino M. (2017). Strategie di rigenerazione urbana per aree transurbane a Padova. In Urbanistica Informazioni, n. 272, pp. 435-440.
Sacchi, L., Unali, M. (2003). Architettura e cultura digitale. Milano: Skira.
Scanu, G., Podda, C., Spanu, B. (2013). Innovazione digitale nella gestione del territorio. GIS e WebGIS tra semplificazione e sburocratizzazione. In Bollettino AIC, n. 147, pp. 151-165.
Steiniger, S. et al. (2017). Building a geographic data repository for urban research with free software – learning from Observatorio.CEDEUS.cl. In The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, volume XLII-4/W2, pp. 147-153.
Stendardo, L., Antoniadis, S. (2017). Il dissolvimento dei limiti della città nelle aree transurbane a Padova. In Urbanistica Informazioni, n. 272, pp. 100-102.