Abstract
The recharging plans are a key component of the electric bus schedule. Since the real-world charging function of electric vehicles follows a nonlinear relationship with the charging duration, it is challenging to accurately estimate the charging time. To provide a feasible bus schedule given the nonlinear charging function, this paper proposes a mixed integer programming model with a piecewise linear charging approximation and multi-depot and multi-vehicle type scheduling. The objective of the model is to minimise the total cost of the schedule, which includes the vehicle purchasing cost and operation cost. From a practical point of view, the number of line changes of each bus is also taken as one of the constraints in the optimisation. An improved heuristic algorithm is then proposed to find high-quality solutions of the problem with an efficient computation. Finally, a real-world dataset is used for the case study. The results of using different charging functions indicate a large deviation between the linear charging function and the piecewise linear approximation, which can effectively avoid the infeasible bus schedules. Moreover, the experiments show that the proposed line change constraints can be an effective control method for transit operators.
Highlights
Due to the environmental benefits of electric vehicles, vehicle electrification is regarded as the main decarbonisation pathway, especially for public transit buses
A piecewise linear approximation approach is used as the realistic charging function for a more feasible bus schedule
The objective of the model aims to minimise the total cost of the network, which consists of the fleet acquisition cost and the operation cost
Summary
Due to the environmental benefits of electric vehicles, vehicle electrification is regarded as the main decarbonisation pathway, especially for public transit buses. Mellouli [5] adopted this strategy and proposed a model based on the time-space network theory to optimise the bus scheduling with multi-depots Overestimating the charging time results in a waste of bus operating time, while the underestimation leads to insufficient state of charge for a complete bus service To solve this problem, Montoya, Guéret [15] studied the electric vehicle routing problem with nonlinear function, the piecewise linear approximation approach is used to accurately approximate the charging function of the vehicle. Models and algorithms proposed in previous studies only focused on vehicle routing problems, whereas the multi-depot and multi-vehicle type conditions are rarely considered To fill these gaps, this paper investigates the electric bus scheduling problem with a nonlinear charging function.
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