Abstract
The smart city concept, in which data from different systems are available, contains a multitude of critical infrastructures. This data availability opens new research opportunities in the study of the interdependency between those critical infrastructures and cascading effects solutions and focuses on the smart city as a network of critical infrastructures. This paper proposes an integrated resilience system linking interconnected critical infrastructures in a smart city to improve disaster resilience. A data-driven approach is considered, using artificial intelligence and methods to minimize cascading effects and the destruction of failing critical infrastructures and their components (at a city level). The proposed approach allows rapid recovery of infrastructures’ service performance levels after disasters while keeping the coverage of the assessment of risks, prevention, detection, response, and mitigation of consequences. The proposed approach has the originality and the practical implication of providing a decision support system that handles the infrastructures that will support the city disaster management system—make the city prepare, adapt, absorb, respond, and recover from disasters by taking advantage of the interconnections between its various critical infrastructures to increase the overall resilience capacity. The city of Lisbon (Portugal) is used as a case to show the practical application of the approach.
Highlights
Smart cities (SCs) and rapid urbanization are transforming the planet and the way we live: globally, around 3 million people move into the urban environment every week [1], and by 2050, cities are estimated to have additional 2.5 billion residents [1]
We propose an integrated resilience system linking interconnected critical infrastructures in a smart city to improve disaster resilience
In pursuing the aim of this work, the current disaster management system used in Lisbon is explored, and we propose a data-driven approach to improve the performance of incident management by understanding the main causes of these incidents
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Smart cities (SCs) and rapid urbanization are transforming the planet and the way we live: globally, around 3 million people move into the urban environment every week [1], and by 2050, cities are estimated to have additional 2.5 billion residents [1]. A greater concentration of people and assets can increase the number of disasters and their impact. According to the UN projections, 68% of the world’s population will live in urban areas by
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