textabstractDelay management determines which connections should be maintained in case of a delayed feeder train. Recent delay management models incorporate the limited capacity of the railway infrastructure. These models introduce headway constraints to make sure that safety regulations are satisfied. Unfortunately, these headway constraints cannot capture the full details of the railway infrastructure, especially within the stations. We therefore propose an iterative optimization approach that iteratively solves a macroscopic delay management model on the one hand, and a microscopic train scheduling model on the other hand. The macroscopic model determines which connections to maintain and proposes a disposition timetable. This dispositio...
A significant growth of the railway transportation demand is forecasted in the next decades which ne...
On a daily basis, large scale disruptions require infrastructure managers and railway operators to r...
On a daily basis, large-scale disruptions require infrastructure managers and railway operators to r...
Delay management determines which connections should be maintained in case of a delayed feeder train...
Optimization models for railway traffic rescheduling tackle the problem of determining, in real-time...
Delay management models determine which connections should be maintained in case of a delayed feeder...
The question of delay management is whether passenger trains should wait for delayed feeder trains o...
As train passengers expect a high degree of reliability from a railway network with minimal delays, ...
Optimization models for railway traffic rescheduling in the last decade tend to develop along two ma...
In nearly saturated station areas the limited capacity is one of the main reasons of delay propagati...
AbstractRailway operation management must cope with failures of the railway system or external distu...
Delay management for railways is concerned with the question of whether a train should wait for a de...
Planned infrastructure works reduce the available capacity of a railway system and make it more vuln...
The Dutch railway network is operated close to capacity with the current safety system. This leaves ...
A significant growth of the railway transportation demand is forecasted in the next decades which ne...
On a daily basis, large scale disruptions require infrastructure managers and railway operators to r...
On a daily basis, large-scale disruptions require infrastructure managers and railway operators to r...
Delay management determines which connections should be maintained in case of a delayed feeder train...
Optimization models for railway traffic rescheduling tackle the problem of determining, in real-time...
Delay management models determine which connections should be maintained in case of a delayed feeder...
The question of delay management is whether passenger trains should wait for delayed feeder trains o...
As train passengers expect a high degree of reliability from a railway network with minimal delays, ...
Optimization models for railway traffic rescheduling in the last decade tend to develop along two ma...
In nearly saturated station areas the limited capacity is one of the main reasons of delay propagati...
AbstractRailway operation management must cope with failures of the railway system or external distu...
Delay management for railways is concerned with the question of whether a train should wait for a de...
Planned infrastructure works reduce the available capacity of a railway system and make it more vuln...
The Dutch railway network is operated close to capacity with the current safety system. This leaves ...
A significant growth of the railway transportation demand is forecasted in the next decades which ne...
On a daily basis, large scale disruptions require infrastructure managers and railway operators to r...
On a daily basis, large-scale disruptions require infrastructure managers and railway operators to r...