Abstract
The customized bus (CB) transit is recognized as an effective transportation mode offering more flexible and demand-responsive service than traditional bus transit with fixed route and schedule, especially during the peak hours. The novelty of this study is the development of a mixed integer non-linear model for optimizing multi-terminal CB service in an urban setting. According to the estimated spatiotemporal passenger demand, the objective total cost, consisting of supplier’s and users’ costs, is minimized subject to capacity and time window constraints. A mixed bus fleet with various bus sizes is employed to accommodate passenger demand, which increases vehicle utilization and reduces supplier’s cost. The inconvenience of passengers caused by early arrival at the destination is treated as penalty and considered in users’ cost. The study optimization problem is combinatorial with many decision variables including trip assignment, bus routing and associated timetables, and fleet size. A hybrid genetic algorithm (HGA) which integrates the features of genetic algorithm (GA) and simulated annealing (SA) is developed to effectively search for the optimal solution. A real-world CB network is employed to demonstrate the applicability of the developed model and explore the relation between the model parameters and optimized results. It was found that the total cost can be reduced by 16.5% after employing multiple terminals and a mixed bus fleet.
Highlights
Rapid urbanization has led transportation demand drastically increases, which deteriorates the service quality and efficiency of transportation systems, especially during the peak hours
Under Scenario 2 with multiple terminals, the minimized total cost can be reduced by 5.9%
Considering the spatiotemporal passenger demand, this study developed a model to optimize the customized bus (CB) service, which minimized the total cost subject to capacity and time window constraints
Summary
Rapid urbanization has led transportation demand drastically increases, which deteriorates the service quality and efficiency of transportation systems, especially during the peak hours. Transit agencies promote demand responsive transit (DRT) as an alternative mode to elevate service quality by offering greater mobility and accessibility during the peak hours. With the rapid development of mobility as a service (MaaS) and personal mobile devices, an emerging DRT service, called customized bus (CB), has been initiated [1, 2]. Unlike traditional DARP a door-to-door service primarily offered to elderly and disabled people [3] with smaller vehicles, the CB service is operated on a stop-to-stop basis to serve greater volume of passengers with larger vehicles considering spatiotemporal demand [4]
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