模拟行人可达性以评估城市便利设施的空间分布

Q1 Arts and Humanities Spatium Pub Date : 2022-01-01 DOI:10.2298/spat210429002m
Tanja Mitrovic, V. Stojaković, Milica Vracaric
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引用次数: 0

摘要

一个城市可以被看作是其居民日常活动的框架,他们的运动创造了复杂的网络模式,作为他们个人决定的后果。鉴于不同年龄层居民对城市便利设施的使用存在明显差异,我们从不同年龄层居民的偏好和便利设施的行人可达性两方面考察了城市便利设施的空间分布。在本文中,我们提出了一种算法来检测城市设施空间分布的最有利组合,以最小化不同年龄段行人的总步行距离和最大频率。所提出的方法侧重于对不同年龄组的参数化解释,他们对城市便利设施的偏好,住宅和非住宅区域之间的相互接近程度以及人群强度。由于居民作为个体决策不可预测的代理人,我们使用基于代理人的建模来模拟行人运动,以优化设施的空间分布。数字环境允许参数化不同类型的数据,用于模拟性能。模拟结果通过行人可达性的两个标准定量呈现,并利用它们之间的相互关系来检测便利设施空间分布的最终优化组合。这种方法有助于更好地理解行人动态,并支持城市系统中对行人友好的选择。最后,将该算法应用于棕地实际空间的案例研究。
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Simulation of pedestrian accessibility to assess the spatial distribution of urban amenities
A city can be perceived as a framework for the everyday activities of its residents, whose movements create complex network patterns as consequences of their individual decisions. Given that there are apparent differences in the use of urban amenities among residents of different ages, we examined the spatial distribution of urban amenities with regard to the preferences of various age groups and the pedestrian accessibility of amenities. In this paper, we propose an algorithm for detecting the most favorable combinations for the spatial distribution of urban amenities, in order to minimize the total walking distances and maximum frequencies of pedestrians of different age groups. The proposed method focuses on the parametric interpretation of various age groups, their preferences for urban amenities, the mutual proximity between residential and non-residential areas, and crowd intensity. Since residents act as agents whose individual decisions are not predictable, we used agent-based modeling to simulate pedestrian movement in order to optimize the spatial distribution of amenities. The digital environment, which allows the parameterization of different types of data, is used for simulation performance. The simulation outcome is quantitatively presented through two criteria of pedestrian accessibility, whose mutual relationship is used to detect the final, optimized combination for the spatial distribution of amenities. This approach can assist with a better understanding of pedestrian dynamics and support pedestrian-friendly choices in urban systems. Finally, the algorithm is applied to the case study of real space in a brownfield location.
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来源期刊
Spatium
Spatium Arts and Humanities-Visual Arts and Performing Arts
CiteScore
0.90
自引率
0.00%
发文量
0
审稿时长
30 weeks
期刊最新文献
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