Climate change is considered one of the main environmental issues challenging contemporary cities. Meanwhile, urban development patterns and the growth of urban population represent the main contributors to climate change, affecting the total energy consumptions and the related greenhouse gas emissions. Therefore, a breakthrough in current urban development patterns is required to counterbalance the climate-related issues. This study focuses on the Smart City and Resilient City concepts that, according to current scientific literature, seem to play a leading role in enhancing cities’ capacities to cope with climate change. In detail, based on the review of existing literature, this study analyzes the synergies between the two concepts, highlighting how the Smart City concept is more and more widely interpreted as a process addressed to make cities “more livable and resilient and, hence, able to respond quicker to new challenges” (Kunzmann, 2014). Nevertheless, current initiatives to improve cities’ smartness and resilience in the European cities are very fragmented and operational tools capable to support multi-objective strategies are still at an early stage. To fill this gap, embracing a systemic perspective, the main characteristics of a smart and resilient urban system have been identified and framed into a conceptual model. The latter represents a preliminary step for the development of an operational tool capable to guide planners and decision-makers in carrying out multi-objective strategies addressed to enhance the response capacities of complex urban systems in the face of climate change.
Smart and Resilient Cities. A Systemic Approach for Developing Cross-Sectoral Strategies in the Face of Climate Change / Papa, Rocco; Galderisi, Adriana; VIGO MAJELLO, MARIA CRISTINA; Saretta, E.. - In: TEMA. - ISSN 1970-9870. - 8:1(2015), pp. 19-49. [10.6092/1970-9870/2883]
Smart and Resilient Cities. A Systemic Approach for Developing Cross-Sectoral Strategies in the Face of Climate Change
PAPA, ROCCO;GALDERISI, ADRIANA;VIGO MAJELLO, MARIA CRISTINA;
2015
Abstract
Climate change is considered one of the main environmental issues challenging contemporary cities. Meanwhile, urban development patterns and the growth of urban population represent the main contributors to climate change, affecting the total energy consumptions and the related greenhouse gas emissions. Therefore, a breakthrough in current urban development patterns is required to counterbalance the climate-related issues. This study focuses on the Smart City and Resilient City concepts that, according to current scientific literature, seem to play a leading role in enhancing cities’ capacities to cope with climate change. In detail, based on the review of existing literature, this study analyzes the synergies between the two concepts, highlighting how the Smart City concept is more and more widely interpreted as a process addressed to make cities “more livable and resilient and, hence, able to respond quicker to new challenges” (Kunzmann, 2014). Nevertheless, current initiatives to improve cities’ smartness and resilience in the European cities are very fragmented and operational tools capable to support multi-objective strategies are still at an early stage. To fill this gap, embracing a systemic perspective, the main characteristics of a smart and resilient urban system have been identified and framed into a conceptual model. The latter represents a preliminary step for the development of an operational tool capable to guide planners and decision-makers in carrying out multi-objective strategies addressed to enhance the response capacities of complex urban systems in the face of climate change.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.