Network Planning Method for Capacitated Metro‐Based Underground Logistics System

Dong, Jianjun; Shen, Yan; Ren, Rui; Zhao, Xiaojing

doi:10.1155/2018/6958086

Cited by 43 publications

(48 citation statements)

References 38 publications

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“…These were followed by papers by Lai and Wong [41] and Ubeda et al [42], which focused on using the scenario-based approaches, such as the questionnaire and case study, to evaluate the environmental performance of green logistics practices. The main topics of other highlighted documents involve: (i) management insights from industrial practices [43,44]; (ii) multi-criteria evaluation system for green logistics (e.g., policy [45], environment [46], and transportation planning [47]); (iii) network facilities design and optimization [48,49]; (iv) reverse logistics [50,51]; and (v) enterprise responsibility and third-party logistics [52]. The top 15 most cited papers are presented in Table 3, showing their publication year, title, TLS, citation counts and topics.…”

Section: Influential Research Highlightmentioning

confidence: 99%

“…For this reason, the collaborative strategy of retrofitting existing urban rail transit systems, such as trams, light rail or subways, to achieve mixed passenger-and-freight transport has received higher recognition and was successfully stepped into engineering practice in some European cities [115]. Compared with ULS, the collaborative modes are easier to implement, since the dual use of transportation infrastructures would moderate the system cost to an acceptable level [49,116].…”

Section: Emerging Technologies Proposed For Gandsl Developmentmentioning

confidence: 99%

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A Systematic Literature Review of Green and Sustainable Logistics: Bibliometric Analysis, Research Trend and Knowledge Taxonomy

Ren

Dong

Sun

et al. 2019

IJERPH

Self Cite

141

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Ever-growing globalization and industrialization put forward impending requirements for green and sustainable logistics (G&SL). Over the past decades, G&SL initiatives triggered worldwide deliberations, aiming at easing negative transport externalities and improving supply chain performance. This review-based paper attempts to offer a joint quantitative and qualitative understanding for the overall evolutionary trend, knowledge structure, and literature gaps of the G&SL research field. Employing the science mapping approach, a total of 306 major paper published from 1999 to 2019 were retrieved, elaborated on, and synthesized. Visualized statistics regarding publication years, journal allocation/co-citation, inter-country/institution collaboration, influential articles, co-occurred keywords, and time view clusters of research themes were analyzed bibliographically. On this basis, a total of 50 sub-branches of G&SL knowledge were classified and thematically discussed based on five alignments, namely (i) social-environmental-economic research, (ii) planning, policy and management, (iii) application and practice, (iv) technology, and (v) operations research. Finally, the current knowledge obstacles and the future research opportunities were suggested. The findings contribute to portray a systematic intellectual prospect for the state quo, hotspots, and academic frontiers of G&SL research. Moreover, it provides researchers and practitioners with heuristic thoughts to govern transportation ecology and logistics service quality.

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Section: Influential Research Highlightmentioning

confidence: 99%

Section: Emerging Technologies Proposed For Gandsl Developmentmentioning

confidence: 99%

A Systematic Literature Review of Green and Sustainable Logistics: Bibliometric Analysis, Research Trend and Knowledge Taxonomy

Ren

Dong

Sun

et al. 2019

IJERPH

Self Cite

141

View full text Add to dashboard Cite

show abstract

“…Mathematical models are also applied to ULS network design, such as the AHP-Fuzzy evaluation [23], and plant growth simulation algorithm [24]. In order to reduce the cost, the implementation of ULS based on urban subway system has also been widely discussed in recent years [10]. However, the models were still based on cost and freight efficiency, rather than the tradeoff between freight performance and freight transport externalities.…”

Section: Literature Reviewmentioning

confidence: 99%

“…Days are also considered for the model. PM from vehicle exhaust is considered the unhealthiest pollutant in metropolitan areas, such as PM 2.5 and PM 10 . Trucks are the main potential source of PM pollution, and the PM emissions can be calculated by the vehicle kilometers travelled (VKT) [50].…”

Section: Performance Subsystemmentioning

confidence: 99%

“…As a new type of transportation infrastructure, ULS has close interaction with urban development. On the one hand, network scale and density determine the transport capacity of ULS, and thus affect its social-economic benefits [10]. The implementation of ULS with high transport capacity can obviously greatly improve the efficiency of urban logistics.…”

Section: Introductionmentioning

confidence: 99%

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The Impact of Underground Logistics System on Urban Sustainable Development: A System Dynamics Approach

et al. 2019

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The lack of practical application and accurate benefit analysis, which are the prerequisites for each other, make it difficult to implement and promote the underground logistics system (ULS), although in theory people always recognize its advantages in sustainable improvement of urban transportation and logistics. This paper attempts to use the system dynamics (SD) method, based on the real-world simulation, to analyze the quantitative relationship between the implementation strategy of ULS and the sustainability of urban transportation and logistics to solve this problem. Beijing city, China, was selected as the empirical background. Four ULS implementation strategies were proposed according to the city's potential investment in ULS and its demand for ULS network capacity. Meanwhile, four representative indicators were selected to evaluate the simulation results, including the average speed of the road networks in the peak hour, congestion loss, delivery travel time in the peak hour and the PM emissions of the truck. Good fitting index of historical data shows the validity of the model. Simulation results show that ULS, as a supplement to the urban integrated transport system, can significantly improve urban traffic and logistics. This study provides a perspective in the systematic and quantitative analysis of ULS to support the urban sustainable development.

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Taxonomy for Integrated Passenger—Freight Transportation Models as an Alternative for Urban Logistics

Chicaiza-Vaca,

Barán,

Sandoya

et al. 2023

Lecture Notes of the Institute for Computer Sciences, Social Informatics and Telecommunications Engineering

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Network Planning Method for Capacitated Metro‐Based Underground Logistics System

Cited by 43 publications

References 38 publications

A Systematic Literature Review of Green and Sustainable Logistics: Bibliometric Analysis, Research Trend and Knowledge Taxonomy

A Systematic Literature Review of Green and Sustainable Logistics: Bibliometric Analysis, Research Trend and Knowledge Taxonomy

The Impact of Underground Logistics System on Urban Sustainable Development: A System Dynamics Approach

Taxonomy for Integrated Passenger—Freight Transportation Models as an Alternative for Urban Logistics

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