Green road–rail intermodal routing problem with improved pickup and delivery services integrating truck departure time planning under uncertainty: an interactive fuzzy programming approach

Sun, Yan; Nan, Yuemin; Huang, Baoliang

doi:10.1007/s40747-021-00598-1

Cited by 22 publications

(26 citation statements)

References 58 publications

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“…Future studies, however, may set a smaller number of available vehicles without requiring that all requests must be served. Last, linearization techniques may be exploited to reduce problem complexity for non-linear formulations and to improve the efficiency of solving small/medium-sized cases [47,48].…”

Section: Discussionmentioning

confidence: 99%

Nature-Inspired Optimal Route Network Design for Shared Autonomous Vehicles

2022

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Emerging forms of shared mobility call for new vehicle routing models that take into account vehicle sharing, ride sharing and autonomous vehicle fleets. This study deals with the design of an optimal route network for autonomous vehicles, considering both vehicle sharing and ride sharing. The problem is modeled as a one-to-many-to-one vehicle routing problem with vehicle capacity and range constraints. An ant colony optimization algorithm is applied to the problem in order to construct a set of routes that satisfies user requests under operational constraints. Results show that the algorithm is able to produce solutions in relatively short computational times, while exploiting the possibility of ride sharing to reduce operating costs. Results also underline the potential of exploiting shared autonomous vehicles in the context of a taxi service for booking trips through electronic reservation systems.

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Section: Discussionmentioning

confidence: 99%

Nature-Inspired Optimal Route Network Design for Shared Autonomous Vehicles

2022

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“…Researchers developed mathematical formulation for freight assignment, routing, investment priorities, and network resilience incorporating disruption in their model to tackle network vulnerability. Routing-based models are formulated for uncapacitated and capacitated networks, survivability of flow network under multiple arc failures [21], rerouting of coal by rail under disruption [22], and routing intermodal freight under disruption scenarios [23], hazmat transportation with random yard disruptions [24], and routing with carbon dioxide emissions consideration [25].…”

Section: Models Under Disruptionsmentioning

confidence: 99%

Assignment of Freight Traffic in a Large-scale Intermodal Network under Uncertainty

Uddin,

Huynh,

Ahmed

2023

Highlights Sustain.

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This paper presents a methodology for freight traffic assignment in a large-scale road-rail intermodal network under uncertainty. Network uncertainties caused by natural disasters have dramatically increased in recent years. Several of these disasters (e.g., Hurricane Sandy, Mississippi River Flooding, and Hurricane Harvey) severely disrupted the U.S. freight transportation network, and consequently, the supply chain. To account for these network uncertainties, a stochastic freight traffic assignment model is formulated. An algorithmic framework, involving the sample average approximation and gradient projection algorithm, is proposed to solve this challenging problem. The developed methodology is tested on the U.S. intermodal network with freight flow data from the Freight Analysis Framework. The experiments consider three types of natural disasters that have different risks and impacts on transportation networks: earthquakes, hurricanes, and floods. It is found that for all disaster scenarios, freight ton-miles are higher compared to the base case without uncertainty. The increase in freight ton-miles is the highest under the flooding scenario; this is because there are more states in the flood-risk areas, and they are scattered throughout the U.S.

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“…Carrone et al [21] found that the use of autonomous vehicles (AVs) in regular vehicle (RV) operation areas will reshape the transport system and greatly improve capacity utilization. Sun et al [22] raised a road-rail combined transport form to minimize the total costs and carbon dioxide emissions of the routes. The costs and carbon dioxide emissions problem can be minimized through the selection of vehicles to a certain extent; however, the high-capacity vehicles also mean greater investment in fixed assets.…”

Section: Related Workmentioning

confidence: 99%

Evolutionary game analysis of three parties in logistics platforms and freight transportation companies’ behavioral strategies for horizontal collaboration considering vehicle capacity utilization

Deng

Zhou

et al. 2022

Complex Intell. Syst.

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In China, logistics platforms are an effective way to solve vehicle capacity utilization using information sharing. However, most logistics platforms do not possess operational sustainability due to excessive profit-seeking. To address this problem, conflicts of interest among freight transportation participants are discussed using a stakeholder approach. A three-player evolutionary game model (TEGM) is developed to analyze the interactions among freight carriers, freight shippers, and logistics platforms. Then, the asymptotic equilibrium and evolutionary stability strategies of the three-player game are analyzed. The results indicate that a high-level positive network externality is the driving force behind the logistics platform’s “high-level service”. A fairness payment incentive guarantees a “sharing” strategy for freight carriers and shippers. When the high-level positive network externality is limited and lower than a threshold value, there is no stable equilibrium point in the TEGM. A government tax incentive cannot change the freight carriers’ and shippers’ strategy to participate in this horizontal collaboration system, except for the logistics platform’s probability of providing “high-level service”. However, the behavioral strategies of the freight transportation participants can be changed to achieve the sustainability of freight transportation by reducing the value-added tax rate through the logistics platform and increasing the high-level positive network externality of the logistics platform and other participants’ perceived fairness through a payment incentive. Finally, suggestions for regulating the behaviors of freight transportation participants and promoting the sustainability of freight transportation are discussed.

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Green road–rail intermodal routing problem with improved pickup and delivery services integrating truck departure time planning under uncertainty: an interactive fuzzy programming approach

Cited by 22 publications

References 58 publications

Nature-Inspired Optimal Route Network Design for Shared Autonomous Vehicles

Nature-Inspired Optimal Route Network Design for Shared Autonomous Vehicles

Assignment of Freight Traffic in a Large-scale Intermodal Network under Uncertainty

Evolutionary game analysis of three parties in logistics platforms and freight transportation companies’ behavioral strategies for horizontal collaboration considering vehicle capacity utilization

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