Abstract
The community shuttle system plays an important role in serving communities with a heavy travel demand for the metro service. Stop location and route design are the two main decisions of planning a community shuttle service. Those two decisions are interrelated and interact, and are strongly related to the user cost and operating cost. The optimal stop location and route can help to reduce the walking distance of passengers and the route length. To make a trade-off between the walking distance of passengers and route length, we propose a discrete optimization problem. A single integrated formulation is established to optimize stop location and route design. Planners can decide the stop location and route design of the community shuttle system simultaneously based on this formulation. Then, we present a non-dominated sorting genetic (NSGA-II) based algorithm to obtain the non-dominated solutions of the discrete optimization formulation. The numerical experiments and a case study based on real-world data are used to demonstrate that the proposed solution method can yield a set of plans of stop location and route in a reasonable time. We also find that when the maximum tolerable walking distance is set to 418 m, the trade-off between the total walking distance of passengers and route length can be obtained.
Highlights
A heavy demand for the metro service has arisen along with the continuous expansion of communities in China
Systematic and proper planning of the community shuttle system is necessary before this public transport system is in operation
We propose a multi-objective integrated formulation to simultaneously decide the stop location and route design of the community shuttle, which is characterized by two aspects that make our problem different from other similar problems in the literature
Summary
A heavy demand for the metro service has arisen along with the continuous expansion of communities in China. Systematic and proper planning of the community shuttle system is necessary before this public transport system is in operation. The planning process of the public transport service includes four components: route and network design, timetabling, vehicle scheduling, and crew scheduling [1]. Among these components, route and network design is a basic one which can influence the overall operational efficiency of the public transport system. Most of them are carried out for conventional bus or feeder bus network design, and few scholars focus on community shuttle route optimization
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