A Planning Support Tool for Layout Integral Optimization of Urban Blue–Green Infrastructure

Zhou, Conghui; Wu, Yun

doi:10.3390/su12041613

Cited by 16 publications

(6 citation statements)

References 64 publications

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“…Specifically, the model is designed to investigate an index score of variables for various characteristics and scales, suggesting the analytical potential to represent the overall well-being state of the city and the availability of GI location choices in a sustainable urban space. Existing GI studies mainly considered geographic and topographic characteristics as key variables [26][27][28][29][30]. In this study, however, publicly accessible descriptive variables-i.e., demographic, climate, environment, and form-specific GI variables-were considered together to enable the overall efficiency improvement of urban elements, including residents.…”

Section: Discussionmentioning

confidence: 99%

“…Lee and Oh [28] developed the GI location assessment system based on geographical information for Namyangju-si, Korea, and attempted the landscape ecological evaluation from both macro and micro perspectives. Zhou and Wu [29] attempted to distribute the Green Land of Hekou City, China, by matching the demand for rust and topographical characteristics. Lai et al [30] identified the relationship between land use and spatial identification by presenting a plan to implement GIs in three areas near Cagliari, Italy.…”

Section: Introductionmentioning

confidence: 99%

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Effectiveness of Green Infrastructure Location Based on a Social Well-Being Index

Lee

2021

Sustainability

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Urban Green Infrastructure (GI) provides promising opportunities to address today’s pressing issues in cities, mainly resulting from uncurbed urbanization. GI has the potential to make significant contributions to make cities more sustainable by satisfying the growing appetite for higher standards of living as well as helping cities adapt to extreme climate events. To leverage the potentials of GI, this article aims to investigate the effectiveness of GI that can enhance social welfare benefits in the triple-bottom line of urban sustainability. First, publicly available data sets representing social demographic, climate, and built environmental elements are collected and indexed to normalize its different scales by the elements, which is termed as the “Social Well-being Index.” Second, a random forest regressor was applied to identify the impacts of variables on the indexed scores by region. As a result, both the Seoul and Gyeonggi-do models found the most significant relationship with the type of GI to prevent pollutants and disasters, followed by GI types to conserve and improve the environment in Seoul and GI types to serve activity spaces in Gyeonggi-do. Furthermore, variables such as population, number of pollutants, and employment rate in Seoul were found significant and employment rate, population, and air pollution were significant in Gyeonggi-do. Finally, a scenario analysis is conducted to investigate the impacts of the overall index score with additional GI facilitation according to the model’s findings. This article can provide effective strategies for implementing policies about GI by considering regional conditions. The analytical processes in this article can provide useful insights into preparing effective ecological and environmental improvement policies accordingly.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effectiveness of Green Infrastructure Location Based on a Social Well-Being Index

Lee

2021

Sustainability

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“…Finally, the site space was comprehensively considered and effective planning principles for urban park space were proposed. In addition to service demand and suitability, existing green spaces were given priority [ 36 ]. The selection of impact factors was based on the study of the soundscape, according to four impact factors—plant density, site elevation, degree of structural enclosure, and functional mixing degree.…”

Section: Methodsmentioning

confidence: 99%

Creating a Healthy Environment for Elderly People in Urban Public Activity Space

Shan

Xiu

2020

IJERPH

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According to statistics, the global, population aging problem is severe and growing rapidly. The aging problem is most obvious in some European countries, and most of them are developed countries, such as Japan, Italy, Germany, France, etc. The current internal and external environments of parks in China are complex. The inefficient utilization of space in urban parks is a prominent problem. The design of public spaces that only considers the visual experience is incomplete. Based on the optimization of urban park space planning principle, this study examined a new measure of the acoustic environment in elderly public activity space and designed a new elderly healthy urban park environment. Methods: Using the main parks in Shenyang (Zhongshan Park, Nanhu Park, Youth Park, and Labor park) as the study sites, this study analyzed problems in the acoustic environmental data through on-site inspection, questionnaire survey, and physical data collection. By using general linear regression and multiple regression methods, this study analyzed the impacts of plant density, site elevation, structure enclosure, functional mixing degree on the acoustic environment, and elderly population activities. Based on the acoustic environment, we propose improvements and construction ideas, as well as technical methods, for urban elderly public activity space planning. The utility of the “elderly public activity space planning principle” was also considered. Results: Elderly activity space in urban parks was affected by three main factors—plant density, degree of structural enclosure, and function mixing degree. These factors should be optimized to construct healthy acoustic environments and attract different types of people. Discussion: Compared to past studies, the new influencing factors of the planning principle for elderly public activity space found in this study, would benefit the urban park environment for the elderly and support sustainable development of cities. Conclusions: This study proposes three optimizations to the elderly urban park space planning principle and builds four healthy models of elderly urban space activity.

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“…Hence, geographic information system (GIS) technology was used. GIS represents a convenient digital system to collect and compare spatial and geographical data, and has increasingly been used in spatial decision support systems [33,34]. In the past few years, GIS has emerged as a powerful risk assessment tool, in particular to assess risks from natural hazards.…”

Section: Work Aims and Research Approachmentioning

confidence: 99%

Built Environment Typologies Prone to Risk: A Cluster Analysis of Open Spaces in Italian Cities

et al. 2021

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Planning for preparedness, in terms of multi-hazard disasters, involves testing the relevant abilities to mitigate damage and build resilience, through the assessment of deterministic disaster scenarios. Among risk-prone assets, open spaces (OSs) play a significant role in the characterization of the built environment (BE) and represent the relevant urban portion on which to develop multi-risk scenarios. The aim of this paper is to elaborate ideal scenarios—namely, Built Environment Typologies (BETs)—for simulation-based risk assessment actions, considering the safety and resilience of BEs in emergency conditions. The investigation is conducted through the GIS data collection of the common characteristics of OSs (i.e., squares), identified through five parameters considered significant in the scientific literature. These data were processed through a non-hierarchical cluster analysis. The results of the cluster analysis identified five groups of OSs, characterized by specific morphological, functional, and physical characteristics. Combining the outcomes of the cluster analysis with a critical analysis, nine final BETs were identified. The resulting BETs were linked to characteristic risk combinations, according to the analysed parameters. Thus, the multi-risk scenarios identified through the statistical analysis lay the basis for future risk assessments of BEs, based on the peculiar characteristics of Italian towns.

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A Planning Support Tool for Layout Integral Optimization of Urban Blue–Green Infrastructure

Cited by 16 publications

References 64 publications

Effectiveness of Green Infrastructure Location Based on a Social Well-Being Index

Effectiveness of Green Infrastructure Location Based on a Social Well-Being Index

Creating a Healthy Environment for Elderly People in Urban Public Activity Space

Built Environment Typologies Prone to Risk: A Cluster Analysis of Open Spaces in Italian Cities

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