改善城市自行车基础设施——基于新冠肺炎封锁影响的探索性研究

IF 2.7 Q1 GEOGRAPHY
Lucas Schwarz , Andreas Keler , Jukka M. Krisp
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引用次数: 4

摘要

简介在新冠肺炎封锁期间,由于没有机动车辆,城市空气质量显著改善。至关重要的是,要使这种改善持续下去,同时保持和改善公众健康。因此,这项探索性研究以慕尼黑(德国)为例,探讨了自行车基础设施,以找出哪些特定的自行车道符合用户的需求,这些基础设施看起来如何,以及哪些特征可能很重要。方法为了识别慕尼黑自行车基础设施的模式,由一名自行车骑手在一天中的不同时间收集8月份连续三周的探索性数据。我们测量位置、时间、速度、脉冲、声级、温度和湿度。在下一步中,我们定性地确定了不同的细分市场,并应用聚类分析来定量描述这些细分市场的测量因素。这些数据使我们能够确定哪些自行车道有一组特定的测量值,这表明它的结构对骑自行车的人来说是有利的。结果在探索性数据集中,识别出五个相关的片段簇:粘性、慢速、不一致、加速和最佳性能。被确定为最佳性能的细分市场使骑自行车的人能够在城市地区以合适的距离高效安全地出行。它们的特点是宽度大,与机动交通和行人几乎没有互动,交通灯控制有效。讨论我们提出了两个层次的讨论:(1)围绕案例研究中的哪种自行车道可以帮助增加城市地区的自行车使用量,同时改善公共卫生和缓解气候变化挑战;(2)讨论这种探索方法的可能性、局限性和必要的改进。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Improving urban bicycle infrastructure-an exploratory study based on the effects from the COVID-19 Lockdown

Introduction

During the COVID-19 lockdown significant improvements in urban air quality were detected due to the absence of motorized vehicles. It is crucial to perpetuate such improvements to maintain and improve public health simultaneously. Therefore, this exploratory study approached bicycle infrastructure in the case of Munich (Germany) to find out which specific bicycle lanes meet the demands of its users, how such infrastructure looks like, and which characteristics are potentially important.

Methods

To identify patterns of bicycle infrastructure in Munich exploratory data is collected over the timespan of three consecutive weeks in August by a bicycle rider at different times of the day. We measure position, time, velocity, pulse, level of sound, temperature and humidity. In the next step, we qualitatively identified different segments and applied a cluster analysis to quantitatively describe those segments regarding the measured factors. The data allows us to identify which bicycle lanes have a particular set of measurements, indicating a favorable construction for bike riders.

Results

In the exploratory dataset, five relevant segment clusters are identified: viscous, slow, inconsistent, accelerating, and best-performance. The segments that are identified as best-performance enable bicycle riders to travel efficiently and safely at amenable distances in urban areas. They are characterized by their width, little to no interaction with motorized traffic as well as pedestrians, and effective traffic light control.

Discussion

We propose two levels of discussion: (1) revolves around what kind of bicycles lanes from the case study can help to increase bicycle usage in urban areas, while simultaneously improving public health and mitigating climate change challenges and (2) discussing the possibilities, limitations and necessary improvements of this kind of exploratory methodology.

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