A hybrid returns to scale-DEA model for sustainable efficiency evaluation of urban transportation systems

IF 4 3区 工程技术 Q2 ENGINEERING, INDUSTRIAL International Journal of Systems Science-Operations & Logistics Pub Date : 2023-06-20 DOI:10.1080/23302674.2023.2221364
Zohreh Moghaddas, Samuel Yousefi, Mahsa Mohammadi, Babak Mohamadpour Tosarkani
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Abstract

The urban transportation network has an undeniable role in addressing the economic, social and environmental issues caused by the traffic. Transportation managers seek to use the existing facilities and capacities in an optimal way to increase customer satisfaction. Therefore, it is necessary to develop an approach to evaluate the performance of the urban transportation system to provide service to citizens effectively. This study develops an approach based on the extended version of the data envelopment analysis (DEA) model to measure the nonradial efficiency and super-efficiency of metro-stations considering the sustainability concept. The developed non-radial DEA model considers the hybrid returns to scale the form of technology by combining constant and variable returns to scale assumptions to improve its applicability to identify efficient and inefficient stations. This DEA model also incorporates the non-discretionary inputs and different types of outputs (i.e. undesirable, negative and non-negative) to improve discrimination power and the ability to interpret the results. The findings help decision-makers identify super-efficient stations as a benchmark for future planning and finding the best location to construct metro-stations. Furthermore, this research enables managers to optimally use the resources to increase the transferred passengers, reduce customer dissatisfaction and optimise the annual profit.
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城市交通系统可持续效率评价的混合规模收益- dea模型
城市交通网络在解决交通带来的经济、社会和环境问题方面具有不可否认的作用。运输经理寻求以最佳方式利用现有设施和能力来提高客户满意度。因此,有必要开发一种方法来评估城市交通系统的绩效,以有效地为市民提供服务。本文基于数据包络分析(DEA)模型的扩展版本,提出了一种考虑可持续性概念的地铁车站非径向效率和超效率度量方法。所建立的非径向DEA模型考虑了技术的混合规模收益形式,结合了不变和可变的规模收益假设,提高了模型在识别高效和低效台站方面的适用性。该DEA模型还结合了非任意输入和不同类型的输出(即不希望的,负面的和非负面的),以提高辨别能力和解释结果的能力。这些发现有助于决策者确定超级高效的车站,作为未来规划的基准,并找到建设地铁站的最佳地点。此外,本研究使管理者能够优化利用资源,增加转乘乘客,减少顾客不满,优化年度利润。
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来源期刊
CiteScore
7.60
自引率
16.70%
发文量
32
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