Exploring alternative bus operations strategies for adaptive and efficient transit systems in the face of disruptions

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-01-01 DOI:10.1016/j.jpubtr.2023.100060
Negar Heidarigharehsoo, Saeid Saidi
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Abstract

Disruptions in public transit systems can have significant impacts on agency and passenger needs. Therefore, it is crucial to implement new transit policies to address these disruptions and to ensure efficient and reliable transit services. This study proposes a framework to assess alternative bus operating strategies to adapt with different disruptions to public transit systems. Conventional all-stop systems, visiting all the stops along a bus corridor, are compared against three alternative operational schemes: Skip-stop, express-local schemes with stop-skipping designs, and on-demand service with a fixed route but flexible stopping patterns, are compared to find the most efficient bus operating service under various circumstances. We developed an optimization model based on the total generalized system cost for each operating strategy using continuous approximation techniques and extended the previous models by comparing a wider range of alternative services and model flexibility to evaluate the optimum system in response to different disruptions. Different factors, such as the level of demand, demand patterns, and sensitivity to various components of transit trips for passengers and the operator, including crowding, denied boarding costs, and fleet constraints, are considered. We found that, given a different disruption scenario, demand, and travel patterns, the most efficient service can vary significantly between on-demand, all-stop, skip-stop, and express-local services. As such, it is suggested that the service scheme be chosen more adaptively by employing such frameworks.

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探索替代公交运营策略,以适应和高效的交通系统,面对中断
公共交通系统的中断可能会对机构和乘客需求产生重大影响。因此,至关重要的是实施新的过境政策,以解决这些中断问题,并确保高效可靠的过境服务。本研究提出了一个评估替代公交运营策略的框架,以适应公共交通系统的不同中断。将传统的全站点系统(访问公交走廊上的所有站点)与三种可供选择的运营方案进行比较:跳过站点、具有跳过站点设计的快速本地方案和具有固定路线但灵活停靠模式的按需服务,以找到在各种情况下最高效的公交运营服务。我们使用连续近似技术为每种运营策略开发了一个基于总广义系统成本的优化模型,并通过比较更广泛的替代服务和模型灵活性来扩展先前的模型,以评估应对不同中断的最佳系统。考虑了不同的因素,如需求水平、需求模式以及乘客和运营商对过境旅行各个组成部分的敏感性,包括拥挤、拒绝登机成本和车队限制。我们发现,在不同的中断场景、需求和旅行模式下,最高效的服务可能在按需服务、全停服务、跳站服务和本地快递服务之间存在显著差异。因此,建议通过使用这样的框架来更自适应地选择服务方案。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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