Freight-transit tour synthesis entropy-based formulation: sharing infrastructure for buses and trucks

IF 3.5 2区 工程技术 Q1 ENGINEERING, CIVIL Transportation Pub Date : 2024-06-05 DOI:10.1007/s11116-024-10499-0
Diana P. Moreno-Palacio, Carlos A. Gonzalez-Calderon, Hector Lopez-Ospina, Jhan Kevin Gil-Marin, John Jairo Posada-Henao
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Abstract

The freight system’s complexity and significant impact on urban areas necessitate carefully considering sustainable transportation options. The proposed freight transit tour synthesis (FTTS) model, using fuzzy logic and entropy maximization, analyzes freight and transit systems as a multiclass category, exploring scenarios where buses and trucks share infrastructure. The experiments demonstrate that capacity and maximum cost significantly influence the solutions obtained using fuzzy parameters, with ε-values indicating the best solution. Results may vary depending on available data, highlighting the need to explore solutions for different capacity levels if exceeded. The impact of the maximum cost constraint on tour flows is significant, emphasizing the importance of considering cost in optimizing tour flows. The model’s robustness is evident across various subjective value of time (SVT) scenarios. The application of the FTTS model offers a novel approach to estimating tour flows, incorporating traffic counts and fuzzy parameters for immediate, relevant results. The model's multiclass formulation accurately represents real-world traffic conditions, considering congestion in traffic assignments. Overall, the FTTS model holds promise for optimizing tour flows and shared infrastructure between freight and transit systems, aiding decision-makers in urban transportation planning and resource allocation, ultimately leading to improved traffic management and infrastructure usage efficiency.

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基于熵的货运巡回综合方案:公共汽车和卡车共享基础设施
由于货运系统的复杂性和对城市地区的重大影响,有必要认真考虑可持续的运输方案。所提出的货运运输线路综合(FTTS)模型采用模糊逻辑和熵最大化方法,将货运和运输系统作为一个多类别类别进行分析,探索公共汽车和卡车共享基础设施的情景。实验证明,运力和最大成本对使用模糊参数获得的解决方案有显著影响,ε 值表示最佳解决方案。结果可能会因可用数据的不同而有所变化,这突出表明,如果超过了不同的容量水平,则有必要探索不同容量水平的解决方案。最大成本约束对旅游流量的影响很大,强调了在优化旅游流量时考虑成本的重要性。在各种主观时间价值(SVT)情况下,该模型的稳健性显而易见。FTTS 模型的应用为估算旅游流量提供了一种新方法,它结合了交通流量和模糊参数,可立即得出相关结果。该模型的多类别表述准确地反映了现实世界的交通状况,并考虑到了交通分配中的拥堵问题。总之,FTTS 模型有望优化货运和公交系统之间的旅游流量和共享基础设施,帮助决策者进行城市交通规划和资源分配,最终改善交通管理和提高基础设施的使用效率。
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来源期刊
Transportation
Transportation 工程技术-工程:土木
CiteScore
10.70
自引率
4.70%
发文量
94
审稿时长
6-12 weeks
期刊介绍: In our first issue, published in 1972, we explained that this Journal is intended to promote the free and vigorous exchange of ideas and experience among the worldwide community actively concerned with transportation policy, planning and practice. That continues to be our mission, with a clear focus on topics concerned with research and practice in transportation policy and planning, around the world. These four words, policy and planning, research and practice are our key words. While we have a particular focus on transportation policy analysis and travel behaviour in the context of ground transportation, we willingly consider all good quality papers that are highly relevant to transportation policy, planning and practice with a clear focus on innovation, on extending the international pool of knowledge and understanding. Our interest is not only with transportation policies - and systems and services – but also with their social, economic and environmental impacts, However, papers about the application of established procedures to, or the development of plans or policies for, specific locations are unlikely to prove acceptable unless they report experience which will be of real benefit those working elsewhere. Papers concerned with the engineering, safety and operational management of transportation systems are outside our scope.
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