电动滑板车限速设置与用户行为有何关联?德克萨斯州奥斯汀和华盛顿特区的观察速度与道路、人行道和自行车道使用情况

Jessica B. Cicchino, Neil K. Chaudhary, Mark G. Solomon
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引用次数: 0

摘要

许多城市限制共享电动滑板车的最高车速,但人们对这些政策如何影响用户行为知之甚少。这项研究测量了华盛顿特区和德克萨斯州奥斯汀市 2004 名电动滑板车骑行者的速度,并观察了他们对道路、人行道和自行车道的使用情况,华盛顿特区的共享电动滑板车配备了限速器,限速为每小时 10 英里,德克萨斯州奥斯汀市的限速为每小时 20 英里。在没有自行车道的地点,考虑到环境和骑行者的特点,华盛顿骑行者在人行道上骑行的可能性比奥斯汀高 51%。在这两个城市,超过 80% 的电动滑板车用户在有自行车道的地方骑行。虽然奥斯汀人行道上的平均骑行速度并没有明显高于华盛顿,这表明人行道上的骑行速度是自我调节的,但在奥斯汀,在人行道上骑行速度≥10 mph(奥斯汀为 41%,华盛顿为 17%)或≥15 mph(奥斯汀为 9%,华盛顿为 <1%)的电动滑板车骑行者比例更高。将共享电动滑板车限速设置为每小时 10 英里,会增加人行道上的骑行人数,这可能会导致与行人发生更多的互动,但较低的电动滑板车速度分布可能会降低行人受伤的风险。自行车道可为电动滑板车提供骑行空间,使其速度更接近其他用户。未来对技术的改进可以更准确地识别人行道上的骑行情况,从而有可能调整电动滑板车的最高速度,使其与人行道上的行人和自行车道上的骑车人混合行驶。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
How Are E-Scooter Speed-Limiter Settings Associated with User Behavior? Observed Speeds and Road, Sidewalk, and Bike Lane Use in Austin, TX, and Washington, D.C.
Many cities limit the top speeds of shared e-scooters, but little is known about how these policies affect user behavior. This study measured speeds and observed use of roads, sidewalks, and bike lanes for 2,004 e-scooter riders in Washington, D.C., where shared e-scooters were equipped with speed governors that limited their speed to 10 mph, and Austin, TX, where the limit was 20 mph. At locations without bike lanes, riders in Washington were 51% more likely to ride on sidewalks than in Austin when accounting for environmental and rider characteristics. Over 80% of e-scooter users rode in bike lanes in both cities when they were available. Although the mean riding speed on sidewalks was not significantly higher in Austin than in Washington, demonstrating self-regulation of speed on sidewalks, the percentage of e-scooter riders traveling on sidewalks at speeds ≥10 mph (41% in Austin versus 17% in Washington) or ≥15 mph (9% in Austin versus <1% in Washington) was higher in Austin. Increased sidewalk riding associated with setting shared e-scooter speed limiters to 10 mph could potentially lead to more interactions with pedestrians, but lower e-scooter speeds at the high end of the distribution may mitigate injury risk to them. Bike lanes could provide space for e-scooters to ride where their speeds would more closely match other users. Future refinements to technology to identify sidewalk riding more accurately could potentially allow maximum e-scooter speeds to be adjusted to mix with pedestrians on sidewalks and cyclists in bike lanes.
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