The Hub Location and Pricing Problem

Urban public transportation hubs are the key nodes of the public transportation system. The location of such hubs is a combinatorial problem. Many factors can affect the decision-making of location, including both quantitative and qualitative factors; however, most current research focuses solely on either the quantitative or the qualitative factors. Little has been done to combine these two approaches. To fulfill this gap in the research, this paper proposes a novel approach to the public transportation hub location problem, which takes both quantitative and qualitative factors into account. In this paper, an improved multiple attribute group decision-making (MAGDM) method based on TOPSIS (Technique for Order Preference by Similarity to Ideal Solution) and deviation is proposed to convert the qualitative factors of each hub into quantitative evaluation values. A location model with stochastic passenger flows is then established based on the above evaluation values. Finally, stochastic programming theory is applied to solve the model and to determine the location result. A numerical study shows that this approach is applicable and effective.

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Capacitated Air/Rail Hub Location Problem With Uncertainty: A Model, Efficient Solution Algorithm, and Case Study

IEEE Transactions on Intelligent Transportation Systems ◽

10.1109/tits.2021.3082781 ◽

2021 ◽

pp. 1-16

Author(s):

Weibin Dai ◽

Sebastian Wandelt ◽

Jun Zhang ◽

Xiaoqian Sun

Keyword(s):

Efficient Solution ◽

Location Problem ◽

Solution Algorithm ◽

Hub Location ◽

Hub Location Problem

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Substantiation of Loading Hub Location for Electric Cargo Bikes Servicing City Areas with Restricted Traffic

Energies ◽

10.3390/en14040839 ◽

2021 ◽

Vol 14 (4) ◽

pp. 839

Author(s):

Vitalii Naumov

Keyword(s):

Urban Areas ◽

Facility Location Problem ◽

Time Interval ◽

Hub Location ◽

Efficiency Criterion ◽

Logistics Systems ◽

Transport Services ◽

Total Transport ◽

Mode Of Transport ◽

Python Programming

Electric cargo bicycles have become a popular mode of transport for last-mile goods deliveries under conditions of restricted traffic in urban areas. The indispensable elements of the cargo bike delivery systems are loading hubs: they serve as intermediate points between vans and bikes ensuring loading, storage, and e-vehicle charging operations. The choice of the loading hub location is one of the basic problems to be solved when designing city logistics systems that presume the use of electric bicycles. The paper proposes an approach to justifying the location of a loading hub based on computer simulations of the delivery process in the closed urban area under the condition of stochastic demand for transport services. The developed mathematical model considers consignees and loading hubs as vertices in the graph representing the transport network. A single request for transport services is described based on the set of numeric parameters, among which the most significant are the size of the consignment, its dimensions, and the time interval between the current and the previous requests for deliveries. The software implementation of the developed model in Python programming language was used to simulate the process of goods delivery by e-bikes for two cases—the synthetically generated rectangular network and the real-world case of the Old Town district in Krakow, Poland. The loading hub location was substantiated based on the simulation results from a set of alternative locations by using the minimum of the total transport work as the efficiency criterion. The obtained results differ from the loading hub locations chosen with the use of classical rectilinear and center-of-gravity methods to solve a simple facility location problem.

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A constraint programming approach and a hybrid of genetic and K-means algorithms to solve the p-hub location-allocation problems

International Journal of Management Science and Engineering Management ◽

10.1080/17509653.2021.1905096 ◽

2021 ◽

pp. 1-11

Author(s):

Masoud Rabbani ◽

Mahdi Mokhtarzadeh ◽

Neda Manavizadeh

Keyword(s):

Constraint Programming ◽

Programming Approach ◽

Hub Location ◽

Location Allocation ◽

Allocation Problems

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Location of regional and international hub ports in liner shipping

Maritime Business Review ◽

10.1108/mabr-02-2017-0007 ◽

2017 ◽

Vol 2 (2) ◽

pp. 114-125 ◽

Cited By ~ 2

Author(s):

Jianfeng Zheng ◽

Cong Fu ◽

Haibo Kuang

Keyword(s):

Design Methodology ◽

Location Problem ◽

Programming Model ◽

Liner Shipping ◽

Mixed Integer ◽

Eastern Asia ◽

Hub Location ◽

Hub Location Problem ◽

Content Type ◽

Western Asia

Purpose This paper aims to investigate the location of regional and international hub ports in liner shipping by proposing a hierarchical hub location problem. Design/methodology/approach This paper develops a mixed-integer linear programming model for the authors’ proposed problem. Numerical experiments based on a realistic Asia-Europe-Oceania liner shipping network are carried out to account for the effectiveness of this model. Findings The results show that one international hub port (i.e. Rotterdam) and one regional hub port (i.e. Zeebrugge) are opened in Europe. Two international hub ports (i.e. Sokhna and Salalah) are located in Western Asia, where no regional hub port is established. One international hub port (i.e. Colombo) and one regional hub port (i.e. Cochin) are opened in Southern Asia. One international hub port (i.e. Singapore) and one regional hub port (i.e. Jakarta) are opened in Southeastern Asia and Australia. Three international hub ports (i.e. Hong Kong, Shanghai and Yokohama) and two regional hub ports (i.e. Qingdao and Kwangyang) are opened in Eastern Asia. Originality/value This paper proposes a hierarchical hub location problem, in which the authors distinguish between regional and international hub ports in liner shipping. Moreover, scale economies in ship size are considered. Furthermore, the proposed problem introduces the main ports.

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