A local smart city approach in the context of smart environment and urban resilience

IF 0.9 Q4 ENVIRONMENTAL STUDIES
Mücella Ateş, Deniz Erinsel Önder
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引用次数: 2

Abstract

Purpose Although smart city studies have increased recently, smart city discussions are made based on general concepts not specific to the region. The region-specific local smart city strategy in the built environment is key to climate resilience in the built environment in the face of natural disasters. The purpose of this paper is to focus on the smart environment, which expresses the spatial dimension of smart cities. This research defines a region-specific smart city model and revealing the role of this model in the resilience against disasters of the built environment. Design/methodology/approach The analytical hierarchy process (AHP) method was conducted in four steps. In Step 1, the authors suggested new smart environmental assessment criteria with climatic and geographical data within the scope of the collective mind of the region. In Step 2, they determined the expert group to evaluate within the scope of the AHP method and then compared the significance levels of the current and suggested smart environmental assessment criteria by the AHP method. Findings From the results, it turned out that smart urbanization processes, which are trying to relate to local characteristics, are of great importance in terms of ensuring urban resilience. The results also highlight that the existing smart environmental assessment criteria in the literature are insufficient to ensure the climatic resilience of the built environment in the face of natural disasters. Research limitations/implications The study is in an intermediary section, which has a gap in the literature due to its subject. Although it has focused on an acute problem and a current research problem, the lack of literature on the field has been a limitation. Determining the cities where the field studies would be conducted has been a major limitation. For an objective hypothesis test within the scope of the AHP method, the sample group should consist of experts working in smart city projects in cities that are in the top 3 in five different smart city rankings, where field studies are conducted. Within this limited cluster, creating a large sample group was an important limitation. Originality/value This research looks into the existing gaps of the relation between climate resilience of the built environment and the local smart city approach. This examination will foster a holistic approach in the practice of sustainable smart city in the built environment, thus reinforcing urban resilience and climate studies in the context of smart cities.
智慧环境和城市弹性背景下的地方智慧城市方法
虽然最近智慧城市的研究有所增加,但智慧城市的讨论是基于一般概念,而不是针对特定区域。建筑环境中具有区域特色的地方智慧城市战略是建筑环境在面对自然灾害时的气候适应能力的关键。本文的目的是关注智慧环境,它表达了智慧城市的空间维度。本研究定义了一个特定区域的智慧城市模型,并揭示了该模型在建筑环境抗灾能力中的作用。设计/方法学/方法层次分析法(AHP)分四个步骤进行。在第1步中,作者提出了新的智能环境评估标准,该标准包含该地区集体思维范围内的气候和地理数据。在步骤2中,他们确定了在AHP方法范围内进行评估的专家组,然后用AHP方法比较了当前和建议的智能环境评估标准的显著性水平。研究结果表明,在确保城市弹性方面,试图与当地特色相关联的智能城市化进程非常重要。研究结果还强调,文献中现有的智能环境评估标准不足以确保建筑环境在面对自然灾害时的气候适应能力。研究局限/启示本研究属于中间部分,由于研究的主题关系,在文献中存在空白。虽然它关注的是一个尖锐的问题和当前的研究问题,但缺乏有关该领域的文献一直是一个限制。确定将在哪些城市进行实地研究一直是一个主要限制。为了在AHP方法范围内进行客观假设检验,样本组应该由在五个不同的智慧城市排名中排名前三的城市中从事智慧城市项目的专家组成,这些城市进行实地研究。在这个有限的集群中,创建一个大样本组是一个重要的限制。原创性/价值本研究探讨了建筑环境的气候适应能力与地方智慧城市方法之间关系的现有差距。本研究将在建筑环境中培养可持续智慧城市实践的整体方法,从而加强智慧城市背景下的城市复原力和气候研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.40
自引率
6.20%
发文量
49
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