A cellular-automata model for assessing the sensitivity of the street network to natural terrain

IF 2.7 Q1 GEOGRAPHY Annals of GIS Pub Date : 2021-06-03 DOI:10.1080/19475683.2021.1936173
Jeeno Soa George, S. Paul, R. Dhawale
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引用次数: 1

Abstract

ABSTRACT Natural and human-made features are not exclusive in settlements but interact across time and space, placing the context in constant evolution. The purpose of this paper is to search for the influence of terrain, a natural feature, on the configuration of the street network, a human-made feature, by analysing the results of two transition states of cellular automata used to model street networks. This work uses data from open-source projects and open-source applications. The first transition state models the street network considering the neighbourhood rules and randomness, assuming the natural terrain and street are exclusive. The second transition state models the street network as the product of characteristics of the terrain, neighbourhood rules, and randomness, thus assuming the natural terrain and street network interacting with one another. The model is run thirteen times for four different cities by varying the terrain characteristics and calibrated by comparing the simulated street maps with recent street maps. The results are compared and found that the CA model with the second transition state yields better simulation results than the first transition state. In one of the four cities studied, the first transition state results are similar to a specific state of the second transition state, indicating a weak inter-connectedness between the terrain and the street network in the mega-city. Further research can reveal whether the amount of inter-connectedness is specific to the city’s terrain or size. The recognition of the inter-connectedness of the road to terrain can help plan for resilient human settlements.
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一种评估街道网络对自然地形敏感性的元胞自动机模型
自然和人为的特征在聚落中不是排他的,而是跨越时间和空间的相互作用,使环境不断演变。本文的目的是通过分析用于建模街道网络的元胞自动机的两种过渡状态的结果,寻找地形这一自然特征对人为特征街道网络配置的影响。这项工作使用了来自开源项目和开源应用程序的数据。第一个过渡状态是假设自然地形和街道是排他性的,考虑邻里规则和随机性的街道网络模型。第二种过渡状态将街道网络建模为地形特征、邻里规则和随机性的产物,从而假设自然地形和街道网络相互作用。通过改变地形特征,该模型在四个不同的城市运行了13次,并通过将模拟的街道地图与最近的街道地图进行比较来校准。结果表明,第二过渡状态下的CA模型比第一过渡状态下的CA模型具有更好的模拟效果。在所研究的四个城市中,有一个城市的第一过渡状态结果与第二过渡状态的特定状态相似,表明特大城市中地形和街道网络之间的相互联系较弱。进一步的研究可以揭示相互联系的程度是否与城市的地形或大小有关。认识到道路与地形的相互联系有助于规划具有复原力的人类住区。
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来源期刊
Annals of GIS
Annals of GIS Multiple-
CiteScore
8.30
自引率
2.00%
发文量
31
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