Add to ORKGWe introduce a rule based multiline holding criterion for regularity in branch and trunk networks accounting for all passenger groups. On the shared transit corridor, we consider synchronization at the merging or the diverging stop. The decision between holding for regularity or synchronization is taken by comparing the expected passenger cost of each control action. The proposed criterion is tested through simulation in a synthetic double fork network with different shares of transferring passengers, control schemes for regularity and synchronization. The results show that multiline control outperforms the state of the art schemes at the network level, stemming from benefits occurring at the first part of the route and the shared transit c...
Holding has been extensively investigated as a strategy to mitigate the inherently stochastic nature...
Transfers are a major source of travel time variability for transit passengers. Coordinating transfe...
Vehicle bunching often occurs in high-frequency transit systems leading to deterioration of service ...
We introduce a rule based multiline holding criterion for regularity in branch and trunk networks ac...
We introduce a holding criterion for network configurations with lines that operate jointly along a ...
In transit corridors, multiple lines share a sequence of consecutive stops to provide higher joint f...
Transportation is an important sector of the global economy. The rapid urbanization and urban sprawl...
Real-time holding control strategies are implemented, among other reasons, in order to protect trans...
Control strategies have been widely used in the literature to counteract the effects of bus bunching...
We perform a systematic review of real-time control strategies for transfer synchronisations in publ...
In the context of transit systems’ management, uncertainty is present in different inputs required f...
Handling efficiently and effectively real-time vehicle control is of major concern of public transpo...
Holding has been extensively investigated as a strategy to mitigate the inherently stochastic natur...
Holding has been extensively investigated as a strategy to mitigate the inherently stochastic nature...
Transfers are a major source of travel time variability for transit passengers. Coordinating transfe...
Vehicle bunching often occurs in high-frequency transit systems leading to deterioration of service ...
We introduce a rule based multiline holding criterion for regularity in branch and trunk networks ac...
We introduce a holding criterion for network configurations with lines that operate jointly along a ...
In transit corridors, multiple lines share a sequence of consecutive stops to provide higher joint f...
Transportation is an important sector of the global economy. The rapid urbanization and urban sprawl...
Real-time holding control strategies are implemented, among other reasons, in order to protect trans...
Control strategies have been widely used in the literature to counteract the effects of bus bunching...
We perform a systematic review of real-time control strategies for transfer synchronisations in publ...
In the context of transit systems’ management, uncertainty is present in different inputs required f...
Handling efficiently and effectively real-time vehicle control is of major concern of public transpo...
Holding has been extensively investigated as a strategy to mitigate the inherently stochastic natur...
Holding has been extensively investigated as a strategy to mitigate the inherently stochastic nature...
Transfers are a major source of travel time variability for transit passengers. Coordinating transfe...
Vehicle bunching often occurs in high-frequency transit systems leading to deterioration of service ...