Xiaoyang Deng , Zilong Zhao , Luliang Tang , Hong Yang , Yi Yu , Guineng Liao
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Then, to assess the user-friendliness of <strong>individual cycling segments as transportation spaces</strong>, we derive and evaluate six fine-grained quantitative indicators of bike lanes (separation, shade, width, pavement, slope undulation, and connectivity) from streetview images, DEM, and the aforementioned cycling topological network. Thirdly, <strong>cycling communities, representing inhabitants' daily living spaces,</strong> are detected based on trajectory density that informs cycling patterns, and their user-friendliness is evaluated by combining the performance of cycling segments with the spatial distribution of POI facilities within each community. 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引用次数: 0
摘要
骑自行车是实现交通脱碳和城市可持续发展的一个前景广阔的解决方案。要改善骑行环境,就必须评估骑行网络的用户友好性。现有的相关研究缺乏大规模的定量评估,通常只关注片段,对于大范围的空间覆盖而言成本效益不高,而且忽视了自行车网络系统的综合影响。因此,我们提出了一种利用多源地理空间数据对自行车网络进行多尺度用户友好性评估的方法。首先,我们利用共享单车的轨迹数据构建自行车网络。然后,为了评估单个自行车路段作为交通空间的用户友好性,我们从街景图像、DEM 和上述自行车拓扑网络中得出并评估了自行车道的六个细粒度量化指标(分隔、遮阳、宽度、路面、坡度起伏和连通性)。第三,代表居民日常生活空间的自行车社区是根据轨迹密度检测出来的,轨迹密度为自行车骑行模式提供了信息,通过将自行车路段的性能与每个社区内 POI 设施的空间分布相结合来评估其用户友好性。在中国厦门进行的一项实证研究表明,所提出的方法能够有效地确定特定路段/欠发达社区的具体指标,从而指导自行车基础设施的投资和优化,促进更多的人将自行车作为一种交通方式。
A multi-scale user-friendliness evaluation approach on cycling network utilizing multi-source data
Cycling is a promising solution to transportation decarbonization and urban sustainability. To enhance the cycling environment, it's essential to assess the user-friendliness of cycling networks. Existing related studies lack large-scale quantitative assessments and typically focus on segments, which are cost-ineffective for extensive spatial coverage and disregard the comprehensive impact of the cycling network system. Therefore, we propose a multi-scale user-friendliness evaluation approach for cycling networks utilizing multi-source geospatial data. First, we construct the cycling network using bike-sharing trajectory data. Then, to assess the user-friendliness of individual cycling segments as transportation spaces, we derive and evaluate six fine-grained quantitative indicators of bike lanes (separation, shade, width, pavement, slope undulation, and connectivity) from streetview images, DEM, and the aforementioned cycling topological network. Thirdly, cycling communities, representing inhabitants' daily living spaces, are detected based on trajectory density that informs cycling patterns, and their user-friendliness is evaluated by combining the performance of cycling segments with the spatial distribution of POI facilities within each community. An empirical study in Xiamen, China demonstrates the effectiveness of the proposed method in pinpointing specific indicators at particular segments/underdeveloped communities, thus guiding investment and optimization of cycling infrastructure to promote greater adoption of cycling as a mode of transportation.
期刊介绍:
Applied Geography is a journal devoted to the publication of research which utilizes geographic approaches (human, physical, nature-society and GIScience) to resolve human problems that have a spatial dimension. These problems may be related to the assessment, management and allocation of the world physical and/or human resources. The underlying rationale of the journal is that only through a clear understanding of the relevant societal, physical, and coupled natural-humans systems can we resolve such problems. Papers are invited on any theme involving the application of geographical theory and methodology in the resolution of human problems.
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