Abstract
This paper envisions a multimodal passenger-and-package sharing (PPS) network for urban logistics integrating metro, taxi, and truck. A hub-and-spoke structure is designed including hubs located at metro stations and service stores connected to the hubs. Packages are transported by metro on backbone links between the hubs and are carried by taxis or trucks between service stores and hubs, depending on the unit costs of these two modes and capacity constraint of the taxi. A mixed integer linear programming model for hub location problems—fusing the multiassignment p-hub median problem without capacity constraints and the capacitated multiassignment p-hub covering problem—is formulated to optimize the multimodal PPS network. The model is implemented based on the real-world data in Shanghai (China) under a series of scenarios to evaluate the network performance from two perspectives: the number of hubs and the proportion of taxi drivers who are willing to carry packages. The scenarios show that with increased number of hubs, the spatial distribution of hubs disperses from the city center to peripheral areas and more areas can be serviced by taxis. There is, however, a trade-off between the operation cost saved by taxis and the establishment cost of an extra hub. The analysis also presents that if the proportion of taxis willing to carry packages associates with the incentive payments to taxi drivers, an optimal value of incentives exists, by balancing the operation costs of taxis and trucks.
Highlights
Key Laboratory of Road and Traffic Engineering of the Ministry of Education, Tongji University, Shanghai 201804, China
With WTCP% increasing from 0% to 100%, 89.32%, 76.43%, and 59.70% of truck flow is saved in the central, middle, and outer parts, respectively (see Figure 10(b)). e central part benefits the most from the passenger-and-package sharing (PPS) network, followed by the middle and outer part. is result implies that the PPS network could mitigate the negative effects of urban logistics on traffic congestion and air pollution in the urban areas
Central part Middle part Outer part (b) trucks for package transport according to the unit costs of these two modes and capacity constraints of taxis. e design of the multimodal PPS network is formulated into a hub location problems (HLPs) with the mixed integer linear programming framework. e developed model is an extension to the two classic types of HLPs: the multiassignment p-hub median problem without capacity constraints if the spoke links are serviced by truck only, and a capacitated multiassignment p-hub covering problem if the model tends to minimize the amount of trucks and to maximize the package flows transported by taxi with capacitated spoke links
Summary
Key Laboratory of Road and Traffic Engineering of the Ministry of Education, Tongji University, Shanghai 201804, China. Is paper envisions a multimodal passenger-and-package sharing (PPS) network for urban logistics integrating metro, taxi, and truck. Is study focuses on the PPS network design with passengers and packages sharing the same public transport vehicles and networks. Current studies on the PPS system mainly focus on vehicle routing for package pickup and delivery, considering various scenarios like taxi sharing or self-owned vehicle routing between public transit stations and customers. A conceptual design of the multimodal PPS network for urban parcel delivery is envisioned and drawn, integrating metro carriages, taxis, and trucks.
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