Ĭampagna, M., Steinitz, C., Di Cesare, E.A., Cocco, C., Ballal, H., Tess, C.: Collaboration in planning: the geodesign approach. Harris, B.: Beyond geographic information systems: computers and the planning professional. Ĭocco, C., Freitas, C.R., Moura, A.C.M., Campagna, M.: Geodesign process analytics: Focus on design as a process and its outcomes. Ĭerreta, M., Panaro, S.: From perceived values to shared values: a Multi-Stakeholder Spatial Decision Analysis (M-SSDA) for resilient landscapes. Īmenta, L.,et al.: Managing the transition towards circular metabolism: Living labs as a co-creation approach. Geodesign, LCA, urban living lab interplay. In: GAR 2019 (2019)Ĭerreta, M., Inglese, P., Mazzarella, C.: A hybrid decision-making process for wastescapes remediation. 2015, 100Ĭerreta, M., Inglese, P., Mazzarella, C.: Wastescapes sustainable management: enabling contexts for eco-innovative solutions. PRESS, E., Ed.Įllen MacArthur Foundation Growth within: a circular economy vision for a competitive europe. Steinitz, C: A Framework for Geodesign: Changing Geography by Design. īallal, H.: Collaborative Planning with Digital Design Synthesis (2015) Īrciniegas, G., et al.: A geodesign decision support environment for integrating management of resource flows in spatial planning. addressing the spatial dimension of circularity through the regeneration of wastescapes. ISBN 9788899854232Īmenta, L., van Timmeren, A.: Beyond wastescapes: towards circular landscapes. (ed.) Metabolismo, resilienza e progetto di riciclo dei drosscape, Trento (2016). Gasparrini, C., Terracciano, A.: Drosscity. EU Commission Participant Portal: Brussels, Belgium (2017)īerger, A.: Drosscape. Goodchild, M.F.: Towards geodesign: repurposing cartography and GIS? Cartogr. In: Proceedings of the Peer Reviewed Proceedings of Digital Landscape Architecture Anhalt University of Applied Science, Germania (2010)Ĭampagna, M., Di Cesare, E.A.: Geodesign: lost in regulations (and in practice). 333–340 (2016)ĭangermond, J.: GeoDesign and GIS-designing our futures. ĭi Cesare, E.A., Cocco, C., Campagna, M.: Il Geodesign come metodologia per la progettazione collaborativa di scenari di sviluppo per l’Area Metropolitana di Cagliari. Ĭampagna, M.: Metaplanning: About designing the Geodesign process. (eds.) Geodesign by Integrating Design and Geospatial Sciences. Steinitz, C.: Which Way of Designing? In: Lee, Danbi J., Dias, E., Scholten, Henk J. Keenan, P.B., Jankowski, P.: Spatial decision support systems: three decades on. Circular city representations concealing transition drivers. Marin, J., De Meulder, B.: Interpreting circularity. Williams, J.: Circular cities: challenges to implementing looping actions. Moraga, G., et al.: Circular economy indicators: What do they measure? Resour. įarooque, M., Zhang, A., Thürer, M., Qu, T., Huisingh, D.: Circular supply chain management: a definition and structured literature review. Girard, L.F., Nocca, F.: Moving towards the circular economy/city model: Which tools for operationalizing this model? Sustainability 11, 1–48 (2019). (eds.) Build to Order: The Road to the 5-Day Car, pp. įischer, J.-G., Gneiting, P.: Collaborative planning processes. Rodriguez-Anton, J.M., Rubio-Andrada, L., Celemín-Pedroche, M.S., Alonso-Almeida, M.D.M.: Analysis of the relations between circular economy and sustainable development goals. Kirchherr, J., Reike, D., Hekkert, M.: Conceptualizing the circular economy: an analysis of 114 definitions. Korhonen, J., Honkasalo, A., Seppälä, J.: Circular economy: the concept and its limitations. Geissdoerfer, M., Savaget, P., Bocken, N.M.P., Hultink, E.J.: The circular economy – a new sustainability paradigm? J. Geodesign Decision Support Environment (GDSE).The primary purpose is to integrate wastescapes regeneration with the management of metabolic flows by realising evaluation maps, required by Geodesign Hub software, in the GDSE to trigger a holistic regenerative process for the circular city. By comparing the main steps of the Geodesign Hub software and the GDSE platform, the paper intends to highlight the results obtained so far from the implementation of the GDSE and the main future development hypotheses. Born as a tool for the resources management in peri-urban areas, the GDSE was also configured as a repository of multiple information. The GDSE can be described as a Decision Support System (DSS) to manage metabolic flows in a spatial GIS-based environment. In the framework of the circular economy, the operational integration of metabolic flows management and co-planning of waste territories, also defined wastescapes, has been implemented by the Geodesign Decision Support Environment (GDSE) platform, a tool developed in the H2020 REPAiR project.
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