We study the integration of train scheduling and rolling stock circulation planning under time-varying passenger demand for an urban rail transit line, where the practical train operation constraints, e.g., the capacity of trains, the number of available rolling stocks, and the entering/exiting depot operations, are considered. Three solution approaches are proposed to solve the resulting multi-objective mixed-integer nonlinear programming (MINLP) problem to deliver both an irregular train schedule (i.e., departure and arrival times of all train services) and a rolling stock circulation plan (including entering/exiting depot operations of rolling stocks and connections between train services) simultaneously. We first present an iterative no...
More and more people in big cities choose urban rail transit as the main means of public transportat...
In an urban rail transit line, train services are performed by the rolling stocks that are initially...
We investigate the energy-efficient train timetabling and rolling stock circulation planning problem...
We study the integration of train scheduling and rolling stock circulation planning under time-varyi...
The planning process in urban rail transportation can be split into several stages, including line p...
Integrated planning for urban rail transit (URT) systems is a significant technique in URT operation...
This study proposes a joint optimization method for train scheduling and rolling stock circulation p...
With the expansion of metro networks, it is common that a metro line is equipped with multiple depot...
This paper presents an integrated model to optimize the train schedule and circulation plan simultan...
This paper focuses on adjusting the offline-planned schedules for urban rail networks in the case of...
In urban rail transit systems, train scheduling plays an important role in improving the transport c...
The tidal traffic phenomenon is one of the most prominent problems on some metro lines, where a larg...
More and more unexpected events occur in metro systems, which may cause serious disturbances and eve...
In metro systems, a tactical train schedule with the rolling stock circulation plan aims to determin...
This paper focuses on the train service design problem within a given period in an urban rail transi...
More and more people in big cities choose urban rail transit as the main means of public transportat...
In an urban rail transit line, train services are performed by the rolling stocks that are initially...
We investigate the energy-efficient train timetabling and rolling stock circulation planning problem...
We study the integration of train scheduling and rolling stock circulation planning under time-varyi...
The planning process in urban rail transportation can be split into several stages, including line p...
Integrated planning for urban rail transit (URT) systems is a significant technique in URT operation...
This study proposes a joint optimization method for train scheduling and rolling stock circulation p...
With the expansion of metro networks, it is common that a metro line is equipped with multiple depot...
This paper presents an integrated model to optimize the train schedule and circulation plan simultan...
This paper focuses on adjusting the offline-planned schedules for urban rail networks in the case of...
In urban rail transit systems, train scheduling plays an important role in improving the transport c...
The tidal traffic phenomenon is one of the most prominent problems on some metro lines, where a larg...
More and more unexpected events occur in metro systems, which may cause serious disturbances and eve...
In metro systems, a tactical train schedule with the rolling stock circulation plan aims to determin...
This paper focuses on the train service design problem within a given period in an urban rail transi...
More and more people in big cities choose urban rail transit as the main means of public transportat...
In an urban rail transit line, train services are performed by the rolling stocks that are initially...
We investigate the energy-efficient train timetabling and rolling stock circulation planning problem...