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Advancing Urban Resilience Amid Rapid Urbanization: An Integrated Interdisciplinary Approach for Tomorrow’s Climate-Adaptive Smart Cities—A Case Study of Wuhan, China

Mehdi Makvandi, Wenjing Li, Li Yu, Hao Wu, Zeinab Khodabakhshi, Xinhui Xu, Philip F. Yuan

2024Smart Cities25 citationsDOIOpen Access PDF

Abstract

This research addresses the urgent challenges posed by rapid urbanization and climate change through an integrated interdisciplinary approach combining advanced technologies with rigorous scientific exploration. The comprehensive analysis focused on Wuhan, China, spanning decades of meteorological and land-use data to trace extreme urbanization trajectories and reveal intricate temporal and spatial patterns. Employing the innovative 360° radial Fibonacci geometric growth framework, the study facilitated a meticulous dissection of urban morphology at granular scales, establishing a model that combined fixed and mobile observational techniques to uncover climatic shifts and spatial transformations. Geographic information systems and computational fluid dynamics were pivotal tools used to explore the intricate interplay between urban structures and their environments. These analyses elucidated the nuanced impact of diverse morphosectors on local conditions. Furthermore, genetic algorithms were harnessed to distill meaningful relationships from the extensive data collected, optimizing spatial arrangements to enhance urban resilience and sustainability. This pioneering interdisciplinary approach not only illuminates the complex dynamics of urban ecosystems but also offers transformative insights for designing smarter, more adaptable cities. The findings underscore the critical role of green spaces in mitigating urban heat island effects. This highlights the imperative for sustainable urban planning to address the multifaceted challenges of the 21st century, promoting long-term environmental sustainability and urban health, particularly in the context of tomorrow’s climate-adaptive smart cities.

Topics & Concepts

UrbanizationSustainabilityContext (archaeology)Urban resilienceUrban planningEnvironmental planningPsychological resilienceChinaClimate changeTransformative learningEnvironmental resource managementResilience (materials science)Urban heat islandClimate resilienceGeographyCivil engineeringEcologyEngineeringEnvironmental scienceSociologyMeteorologyBiologyPsychologyThermodynamicsArchaeologyPsychotherapistPedagogyPhysicsLand Use and Ecosystem ServicesUrban Heat Island MitigationRemote Sensing and Land Use
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